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// HeadPhone.java /* All the outputs were same because the variables declared and defined in HeadPhone class were static, they will be updated only once during the program execution. removing the static keyword from the variables which will be updated during the program execution will give the desired results */ public class HeadPhone { private static final int LOW = 1; private static final int MEDIUM = 2; private static final int HIGH = 3; private int volume = 0; private boolean pluggedIn = false; private String none = null; private String manufacturer = none; private String headPhoneColor = none; private String volPos = none; private String switchPos= none; private String onOrOff= none; // Default Headphone Constructor public HeadPhone() { volume = MEDIUM; pluggedIn = false; manufacturer = \"Sony\"; headPhoneColor = \"Gold\"; } // Headphone Constructor public HeadPhone (int volume2, boolean pluggedIn2, String manufacturer2, String headPhoneColor2) { volume = volume2; pluggedIn = pluggedIn2; manufacturer = manufacturer2; headPhoneColor = headPhoneColor2; } // Setter Methods // setVolume public void setVolume(int volume2) { volume = volume2; } // setPluggedIn public void setPluggedIn(boolean pluggedIn2) { pluggedIn = pluggedIn2; } // setManufacturer public void setManufacturer(String manufacturer2) { manufacturer = manufacturer2; } // setColor public void setColor(String headPhoneColor2) { headPhoneColor = headPhoneColor2; } // Getter Methods // getVolume public int getVolume() { if(volume == 3) { volPos = \"HIGH\"; } else if (volume == 2) { volPos = \"MEDIUM\"; } else if(volume == 1) { volPos = \"LOW\"; } else { System.out.println(\"Your entry is invalid, please try again.\"); } return volume; } //getPluggedIn public boolean getPluggedIn() { if(pluggedIn == false) { onOrOff = \"Off\"; } else { onOrOff = \"On\"; } return pluggedIn; } //getManufacturer public String getManufacturer() { return manufacturer; } //getColor public String getColor() { return headPhoneColor; } // changeVolume method public void changeVolume(int volume2) { setVolume(volume2); } // toString method public String toString() { String str = \"toString() results: (volume=\" + volume + \", pluggedIn=\" + pluggedIn + \", Manufacturer=\" + manufacturer + \", HeadPhone Color=\" + headPhoneColor +\")\"; return str; } } // TestHeadPhone.java import java.util.Scanner; public class TestHeadPhone { public static void main(String[] args) { int row = 4; HeadPhone [] hfArray = new HeadPhone[row]; HeadPhone hpObj1 = new HeadPhone(); hfArray[0] = hpObj1; Scanner input = new Scanner(System.in); for(int i=1; i<4; i++) { HeadPhone hpObj2 = new HeadPhone(); System.out.println(\"Please enter the data for new headphones:\"); System.out.println(\"Would you like to turn the headphones on? (Type \'true\' for on, Type \'false\' for off: \"); hpObj2.setPluggedIn(input.nextBoolean()); System.out.println(\"Please the the volume (Options are by integer (1 = Low, 2 = Medium, 3 = High): \"); hpObj2.setV.
HeadPhone.java All the outputs were same because the variabl.pdf
HeadPhone.java All the outputs were same because the variabl.pdf
info518726
// Program to print all combination of size r in an array of size n #include void combinationUtil(int arr[], int data[], int start, int end, int index, int r); // The main function that prints all combinations of size r // in arr[] of size n. This function mainly uses combinationUtil() void printCombination(int arr[], int n, int r) { // A temporary array to store all combination one by one int data[r]; // Print all combination using temprary array \'data[]\' combinationUtil(arr, data, 0, n-1, 0, r); } /* arr[] ---> Input Array data[] ---> Temporary array to store current combination start & end ---> Staring and Ending indexes in arr[] index ---> Current index in data[] r ---> Size of a combination to be printed */ void combinationUtil(int arr[], int data[], int start, int end, int index, int r) { // Current combination is ready to be printed, print it if (index == r) { if (data[0]+data[1]+data[2]+data[3]==24) { for (int j=0; j= r-index\" makes sure that including one element // at index will make a combination with remaining elements // at remaining positions for (int i=start; i<=end && end-i+1 >= r-index; i++) { data[index] = arr[i]; combinationUtil(arr, data, i+1, end, index+1, r); } } // Driver program to test above functions int main() { int arr[] = {1, 2, 3, 4, 5, 6, 7, 8, 9}; int r = 4; int n = sizeof(arr)/sizeof(arr[0]); printCombination(arr, n, r); } Solution // Program to print all combination of size r in an array of size n #include void combinationUtil(int arr[], int data[], int start, int end, int index, int r); // The main function that prints all combinations of size r // in arr[] of size n. This function mainly uses combinationUtil() void printCombination(int arr[], int n, int r) { // A temporary array to store all combination one by one int data[r]; // Print all combination using temprary array \'data[]\' combinationUtil(arr, data, 0, n-1, 0, r); } /* arr[] ---> Input Array data[] ---> Temporary array to store current combination start & end ---> Staring and Ending indexes in arr[] index ---> Current index in data[] r ---> Size of a combination to be printed */ void combinationUtil(int arr[], int data[], int start, int end, int index, int r) { // Current combination is ready to be printed, print it if (index == r) { if (data[0]+data[1]+data[2]+data[3]==24) { for (int j=0; j= r-index\" makes sure that including one element // at index will make a combination with remaining elements // at remaining positions for (int i=start; i<=end && end-i+1 >= r-index; i++) { data[index] = arr[i]; combinationUtil(arr, data, i+1, end, index+1, r); } } // Driver program to test above functions int main() { int arr[] = {1, 2, 3, 4, 5, 6, 7, 8, 9}; int r = 4; int n = sizeof(arr)/sizeof(arr[0]); printCombination(arr, n, r); }.
Program to print all combination of size r in an array of size n.pdf
Program to print all combination of size r in an array of size n.pdf
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Methanol is soluble in water. methanol is a one carbon organic alcohol. The -OH group forms favorable hydrogen bonds with water, and the hydrophobic portion is small enough that it can readily dissolve. Solution Methanol is soluble in water. methanol is a one carbon organic alcohol. The -OH group forms favorable hydrogen bonds with water, and the hydrophobic portion is small enough that it can readily dissolve..
Methanol is soluble in water. methanol is a one carbon organic alco.pdf
Methanol is soluble in water. methanol is a one carbon organic alco.pdf
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Solubility in water happens when something is polar or charged. Charged is much easier to understand--it\'s when there\'s an actual positive or negative charge on any given molecule. Polarity is just like charge, but instead of the electrons being specifically on a given atom and not on another (like in Na+ and Cl-), they\'re shared in a way such that they spend more time on one atom vs another (like CH3OH--the electrons spend more time on the O than they do on either the C or the Hs). How do you know which atoms like to hold onto electrons more than other atoms? Electronegativity differences. Certain atoms like F, N, and O are really electronegative, which means they like to hold onto electrons more than other atoms, like, say, C and H. So, if F were bound to C, the electrons would be on the F more often than the C. On the other hand, if you have to atoms, like C and H, which have very similar electronegativity values, they will share the electrons more readily, and the electrons don\'t stay on one or the other atoms more often. Such molecules are called non-polar, and are, in fact, not soluble in water. Instead, they\'re fat-soluble, because fat is just a whole bunch of C-H bonds next to each other. So, looking at the structures of those given vitamins, vitamin A consists mostly of a bunch of C-H bonds; it\'s likely fat soluble. Vitamin B6 has a bunch of C-O-H bonds and an N, too. It\'s much more polar, and likely water soluble. Vitamin C has tons of oxygens and is definitely water soluble. Vitamin E is mostly C-H bonds and not too many O-H or O-C bonds, so it\'s likely fat soluble. Hope that helps! :) Solution Solubility in water happens when something is polar or charged. Charged is much easier to understand--it\'s when there\'s an actual positive or negative charge on any given molecule. Polarity is just like charge, but instead of the electrons being specifically on a given atom and not on another (like in Na+ and Cl-), they\'re shared in a way such that they spend more time on one atom vs another (like CH3OH--the electrons spend more time on the O than they do on either the C or the Hs). How do you know which atoms like to hold onto electrons more than other atoms? Electronegativity differences. Certain atoms like F, N, and O are really electronegative, which means they like to hold onto electrons more than other atoms, like, say, C and H. So, if F were bound to C, the electrons would be on the F more often than the C. On the other hand, if you have to atoms, like C and H, which have very similar electronegativity values, they will share the electrons more readily, and the electrons don\'t stay on one or the other atoms more often. Such molecules are called non-polar, and are, in fact, not soluble in water. Instead, they\'re fat-soluble, because fat is just a whole bunch of C-H bonds next to each other. So, looking at the structures of those given vitamins, vitamin A consists mostly of a bunch of C-H bonds; it\'s likely fat soluble. Vi.
Solubility in water happens when something is pol.pdf
Solubility in water happens when something is pol.pdf
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moles = 0.144 Solution moles = 0.144.
moles = 0.144 .pdf
moles = 0.144 .pdf
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It is used to remove water from the organic layer. During the experiment some water gets into the organic layer because of the partial miscibility of the organic products in water. Saturated sodium chloride will pull the water from the organic layer following simple solute rules. Sat. NaCl wants to become more dilute and salts have a higher affinity for water than for organic solvents. Therefore removing the bulk of the water in the organic layer. Solution It is used to remove water from the organic layer. During the experiment some water gets into the organic layer because of the partial miscibility of the organic products in water. Saturated sodium chloride will pull the water from the organic layer following simple solute rules. Sat. NaCl wants to become more dilute and salts have a higher affinity for water than for organic solvents. Therefore removing the bulk of the water in the organic layer..
It is used to remove water from the organic layer.pdf
It is used to remove water from the organic layer.pdf
info518726
nitrogen is more electronegative than phosphorus , so nitrogen tends to attracts more of the electron cloud towards itself. hence nitrogen phosphorous bond in not fully covalent. hence there is no equal sharing of electrons Solution nitrogen is more electronegative than phosphorus , so nitrogen tends to attracts more of the electron cloud towards itself. hence nitrogen phosphorous bond in not fully covalent. hence there is no equal sharing of electrons.
nitrogen is more electronegative than phosphorus .pdf
nitrogen is more electronegative than phosphorus .pdf
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ionic equation is 2 Cu+2(aq) + 4Cl-(aq) + 4 K+(aq)+ 4I-(aq) --> 2 CuI(s) + I2(aq) + 4 K+(aq)+ 4Cl-(aq) Solution ionic equation is 2 Cu+2(aq) + 4Cl-(aq) + 4 K+(aq)+ 4I-(aq) --> 2 CuI(s) + I2(aq) + 4 K+(aq)+ 4Cl-(aq).
ionic equation is 2 Cu+2(aq) + 4Cl-(aq) + 4 K+(aq.pdf
ionic equation is 2 Cu+2(aq) + 4Cl-(aq) + 4 K+(aq.pdf
info518726
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// HeadPhone.java /* All the outputs were same because the variables declared and defined in HeadPhone class were static, they will be updated only once during the program execution. removing the static keyword from the variables which will be updated during the program execution will give the desired results */ public class HeadPhone { private static final int LOW = 1; private static final int MEDIUM = 2; private static final int HIGH = 3; private int volume = 0; private boolean pluggedIn = false; private String none = null; private String manufacturer = none; private String headPhoneColor = none; private String volPos = none; private String switchPos= none; private String onOrOff= none; // Default Headphone Constructor public HeadPhone() { volume = MEDIUM; pluggedIn = false; manufacturer = \"Sony\"; headPhoneColor = \"Gold\"; } // Headphone Constructor public HeadPhone (int volume2, boolean pluggedIn2, String manufacturer2, String headPhoneColor2) { volume = volume2; pluggedIn = pluggedIn2; manufacturer = manufacturer2; headPhoneColor = headPhoneColor2; } // Setter Methods // setVolume public void setVolume(int volume2) { volume = volume2; } // setPluggedIn public void setPluggedIn(boolean pluggedIn2) { pluggedIn = pluggedIn2; } // setManufacturer public void setManufacturer(String manufacturer2) { manufacturer = manufacturer2; } // setColor public void setColor(String headPhoneColor2) { headPhoneColor = headPhoneColor2; } // Getter Methods // getVolume public int getVolume() { if(volume == 3) { volPos = \"HIGH\"; } else if (volume == 2) { volPos = \"MEDIUM\"; } else if(volume == 1) { volPos = \"LOW\"; } else { System.out.println(\"Your entry is invalid, please try again.\"); } return volume; } //getPluggedIn public boolean getPluggedIn() { if(pluggedIn == false) { onOrOff = \"Off\"; } else { onOrOff = \"On\"; } return pluggedIn; } //getManufacturer public String getManufacturer() { return manufacturer; } //getColor public String getColor() { return headPhoneColor; } // changeVolume method public void changeVolume(int volume2) { setVolume(volume2); } // toString method public String toString() { String str = \"toString() results: (volume=\" + volume + \", pluggedIn=\" + pluggedIn + \", Manufacturer=\" + manufacturer + \", HeadPhone Color=\" + headPhoneColor +\")\"; return str; } } // TestHeadPhone.java import java.util.Scanner; public class TestHeadPhone { public static void main(String[] args) { int row = 4; HeadPhone [] hfArray = new HeadPhone[row]; HeadPhone hpObj1 = new HeadPhone(); hfArray[0] = hpObj1; Scanner input = new Scanner(System.in); for(int i=1; i<4; i++) { HeadPhone hpObj2 = new HeadPhone(); System.out.println(\"Please enter the data for new headphones:\"); System.out.println(\"Would you like to turn the headphones on? (Type \'true\' for on, Type \'false\' for off: \"); hpObj2.setPluggedIn(input.nextBoolean()); System.out.println(\"Please the the volume (Options are by integer (1 = Low, 2 = Medium, 3 = High): \"); hpObj2.setV.
HeadPhone.java All the outputs were same because the variabl.pdf
HeadPhone.java All the outputs were same because the variabl.pdf
info518726
// Program to print all combination of size r in an array of size n #include void combinationUtil(int arr[], int data[], int start, int end, int index, int r); // The main function that prints all combinations of size r // in arr[] of size n. This function mainly uses combinationUtil() void printCombination(int arr[], int n, int r) { // A temporary array to store all combination one by one int data[r]; // Print all combination using temprary array \'data[]\' combinationUtil(arr, data, 0, n-1, 0, r); } /* arr[] ---> Input Array data[] ---> Temporary array to store current combination start & end ---> Staring and Ending indexes in arr[] index ---> Current index in data[] r ---> Size of a combination to be printed */ void combinationUtil(int arr[], int data[], int start, int end, int index, int r) { // Current combination is ready to be printed, print it if (index == r) { if (data[0]+data[1]+data[2]+data[3]==24) { for (int j=0; j= r-index\" makes sure that including one element // at index will make a combination with remaining elements // at remaining positions for (int i=start; i<=end && end-i+1 >= r-index; i++) { data[index] = arr[i]; combinationUtil(arr, data, i+1, end, index+1, r); } } // Driver program to test above functions int main() { int arr[] = {1, 2, 3, 4, 5, 6, 7, 8, 9}; int r = 4; int n = sizeof(arr)/sizeof(arr[0]); printCombination(arr, n, r); } Solution // Program to print all combination of size r in an array of size n #include void combinationUtil(int arr[], int data[], int start, int end, int index, int r); // The main function that prints all combinations of size r // in arr[] of size n. This function mainly uses combinationUtil() void printCombination(int arr[], int n, int r) { // A temporary array to store all combination one by one int data[r]; // Print all combination using temprary array \'data[]\' combinationUtil(arr, data, 0, n-1, 0, r); } /* arr[] ---> Input Array data[] ---> Temporary array to store current combination start & end ---> Staring and Ending indexes in arr[] index ---> Current index in data[] r ---> Size of a combination to be printed */ void combinationUtil(int arr[], int data[], int start, int end, int index, int r) { // Current combination is ready to be printed, print it if (index == r) { if (data[0]+data[1]+data[2]+data[3]==24) { for (int j=0; j= r-index\" makes sure that including one element // at index will make a combination with remaining elements // at remaining positions for (int i=start; i<=end && end-i+1 >= r-index; i++) { data[index] = arr[i]; combinationUtil(arr, data, i+1, end, index+1, r); } } // Driver program to test above functions int main() { int arr[] = {1, 2, 3, 4, 5, 6, 7, 8, 9}; int r = 4; int n = sizeof(arr)/sizeof(arr[0]); printCombination(arr, n, r); }.
Program to print all combination of size r in an array of size n.pdf
Program to print all combination of size r in an array of size n.pdf
info518726
Methanol is soluble in water. methanol is a one carbon organic alcohol. The -OH group forms favorable hydrogen bonds with water, and the hydrophobic portion is small enough that it can readily dissolve. Solution Methanol is soluble in water. methanol is a one carbon organic alcohol. The -OH group forms favorable hydrogen bonds with water, and the hydrophobic portion is small enough that it can readily dissolve..
Methanol is soluble in water. methanol is a one carbon organic alco.pdf
Methanol is soluble in water. methanol is a one carbon organic alco.pdf
info518726
Solubility in water happens when something is polar or charged. Charged is much easier to understand--it\'s when there\'s an actual positive or negative charge on any given molecule. Polarity is just like charge, but instead of the electrons being specifically on a given atom and not on another (like in Na+ and Cl-), they\'re shared in a way such that they spend more time on one atom vs another (like CH3OH--the electrons spend more time on the O than they do on either the C or the Hs). How do you know which atoms like to hold onto electrons more than other atoms? Electronegativity differences. Certain atoms like F, N, and O are really electronegative, which means they like to hold onto electrons more than other atoms, like, say, C and H. So, if F were bound to C, the electrons would be on the F more often than the C. On the other hand, if you have to atoms, like C and H, which have very similar electronegativity values, they will share the electrons more readily, and the electrons don\'t stay on one or the other atoms more often. Such molecules are called non-polar, and are, in fact, not soluble in water. Instead, they\'re fat-soluble, because fat is just a whole bunch of C-H bonds next to each other. So, looking at the structures of those given vitamins, vitamin A consists mostly of a bunch of C-H bonds; it\'s likely fat soluble. Vitamin B6 has a bunch of C-O-H bonds and an N, too. It\'s much more polar, and likely water soluble. Vitamin C has tons of oxygens and is definitely water soluble. Vitamin E is mostly C-H bonds and not too many O-H or O-C bonds, so it\'s likely fat soluble. Hope that helps! :) Solution Solubility in water happens when something is polar or charged. Charged is much easier to understand--it\'s when there\'s an actual positive or negative charge on any given molecule. Polarity is just like charge, but instead of the electrons being specifically on a given atom and not on another (like in Na+ and Cl-), they\'re shared in a way such that they spend more time on one atom vs another (like CH3OH--the electrons spend more time on the O than they do on either the C or the Hs). How do you know which atoms like to hold onto electrons more than other atoms? Electronegativity differences. Certain atoms like F, N, and O are really electronegative, which means they like to hold onto electrons more than other atoms, like, say, C and H. So, if F were bound to C, the electrons would be on the F more often than the C. On the other hand, if you have to atoms, like C and H, which have very similar electronegativity values, they will share the electrons more readily, and the electrons don\'t stay on one or the other atoms more often. Such molecules are called non-polar, and are, in fact, not soluble in water. Instead, they\'re fat-soluble, because fat is just a whole bunch of C-H bonds next to each other. So, looking at the structures of those given vitamins, vitamin A consists mostly of a bunch of C-H bonds; it\'s likely fat soluble. Vi.
Solubility in water happens when something is pol.pdf
Solubility in water happens when something is pol.pdf
info518726
moles = 0.144 Solution moles = 0.144.
moles = 0.144 .pdf
moles = 0.144 .pdf
info518726
It is used to remove water from the organic layer. During the experiment some water gets into the organic layer because of the partial miscibility of the organic products in water. Saturated sodium chloride will pull the water from the organic layer following simple solute rules. Sat. NaCl wants to become more dilute and salts have a higher affinity for water than for organic solvents. Therefore removing the bulk of the water in the organic layer. Solution It is used to remove water from the organic layer. During the experiment some water gets into the organic layer because of the partial miscibility of the organic products in water. Saturated sodium chloride will pull the water from the organic layer following simple solute rules. Sat. NaCl wants to become more dilute and salts have a higher affinity for water than for organic solvents. Therefore removing the bulk of the water in the organic layer..
It is used to remove water from the organic layer.pdf
It is used to remove water from the organic layer.pdf
info518726
nitrogen is more electronegative than phosphorus , so nitrogen tends to attracts more of the electron cloud towards itself. hence nitrogen phosphorous bond in not fully covalent. hence there is no equal sharing of electrons Solution nitrogen is more electronegative than phosphorus , so nitrogen tends to attracts more of the electron cloud towards itself. hence nitrogen phosphorous bond in not fully covalent. hence there is no equal sharing of electrons.
nitrogen is more electronegative than phosphorus .pdf
nitrogen is more electronegative than phosphorus .pdf
info518726
ionic equation is 2 Cu+2(aq) + 4Cl-(aq) + 4 K+(aq)+ 4I-(aq) --> 2 CuI(s) + I2(aq) + 4 K+(aq)+ 4Cl-(aq) Solution ionic equation is 2 Cu+2(aq) + 4Cl-(aq) + 4 K+(aq)+ 4I-(aq) --> 2 CuI(s) + I2(aq) + 4 K+(aq)+ 4Cl-(aq).
ionic equation is 2 Cu+2(aq) + 4Cl-(aq) + 4 K+(aq.pdf
ionic equation is 2 Cu+2(aq) + 4Cl-(aq) + 4 K+(aq.pdf
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hydration of alkene. Solution hydration of alkene..
hydration of alkene. .pdf
hydration of alkene. .pdf
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H2O + NO + NO2 --> 2HNO2 Three molecules collide at an instant is rare, thus it is not an elementary reaction that can occur at a significant rate. Solution H2O + NO + NO2 --> 2HNO2 Three molecules collide at an instant is rare, thus it is not an elementary reaction that can occur at a significant rate..
H2O + NO + NO2 -- 2HNO2 Three molecules collide.pdf
H2O + NO + NO2 -- 2HNO2 Three molecules collide.pdf
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he coordination compounds , metal complexes or simply complexes are compounds which contain an ion or a central atom, usually a metal, surrounded by a collection of ions or molecules. The chance discovery dell\'esamminocobalto (III) chloride, CoCl 3 6 NH 3 , due to Tassaert in 1798 marks the beginning of the chemistry of the complexes. Many of the jobs immediately after they were made ??with ammonia and complex that resulted were called metallammine. Subsequently it was found that other amines and other anions such as CN - , NO 2 - , NCS - , Cl - can form complexes with metals. Many compounds were prepared with these anions and, at first, were called by the name of the chemical that prepared them first. Subsequently, because of the fact that many of these complexes was colored, was used a scheme of nomenclature based on the color. Our current knowledge about the nature of the metal complexes are due to Werner , in 1893 at the age of 26 years suggested that even today is called coordination theory of Werner. His most important are three postulates: Most of the elements have two types of meaning: a) primary valence and b) secondary valence. In modern terminology a) corresponds to the oxidation state and b) the coordination number Each element tends to satisfy the valence both primary and secondary The secondary valence is directed towards fixed positions of the space Consider the complex cloroamminocobalto (III). According to the theory of Werner the first member of the series has the formula Co [(NH 3 ) 6 ] Cl 3 and is represented as shown in the figure: (i upload for u on this address: Structures http://i45.tinypic.com/2l2654.gif http://i50.tinypic.com/jaykgy.jpg) The primary valence or oxidation state of the cobalt (III) is 3. The three ions Cl - primary saturate the valence of cobalt chloride ions and then the three primary saturate the valence of cobalt negative ions that neutralize the positive charge of the metal ion affect the primary value. Solution he coordination compounds , metal complexes or simply complexes are compounds which contain an ion or a central atom, usually a metal, surrounded by a collection of ions or molecules. The chance discovery dell\'esamminocobalto (III) chloride, CoCl 3 6 NH 3 , due to Tassaert in 1798 marks the beginning of the chemistry of the complexes. Many of the jobs immediately after they were made ??with ammonia and complex that resulted were called metallammine. Subsequently it was found that other amines and other anions such as CN - , NO 2 - , NCS - , Cl - can form complexes with metals. Many compounds were prepared with these anions and, at first, were called by the name of the chemical that prepared them first. Subsequently, because of the fact that many of these complexes was colored, was used a scheme of nomenclature based on the color. Our current knowledge about the nature of the metal complexes are due to Werner , in 1893 at the age of 26 years suggested that even today is called coordination .
he coordination compounds , metal complexes or si.pdf
he coordination compounds , metal complexes or si.pdf
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PdCl2 + 2DMSO ? PdCl2*2DMSO It forms a complexe. Solution PdCl2 + 2DMSO ? PdCl2*2DMSO It forms a complexe..
PdCl2 + 2DMSO PdCl22DMSO It forms a complexe..pdf
PdCl2 + 2DMSO PdCl22DMSO It forms a complexe..pdf
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melting point of the mixture decreases when small amount of naphthalene is added Solution melting point of the mixture decreases when small amount of naphthalene is added.
melting point of the mixture decreases when small.pdf
melting point of the mixture decreases when small.pdf
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Polymers are made by joining small molecules into large ones.But most of these monomer molecules are perfectly stable as they are, so they have devised two general methods to make them react with each other, building up the backbone chain as the reaction proceeds. This method (also known as step-growth) requires that the monomers possess two or more kinds of functional groups that are able to react with each other in such a way that parts of these groups combine to form a small molecule (often H2O) which is eliminated from the two pieces. 2 Additional Polymerisation: Polymer play a major role in various industry sector and which are used in plastic bags ,water pipes outer layer of electric wires clothing and,woven fabric and also other materials. PLASTIC BAGS: WATER PIPES OUTER LAYER OF ELECTRIC WIRES: Outer layer of insulator is also called as electric insulator. It is the most commonly used thermoplastic insulator for cables. It is cheap, durable and widely available. However, the chlorine in PVC (a halogen) causes the production of thick, toxic, black smoke when burnt and can be a health hazard in areas where low smoke and toxicity are required Normal operating temperatures are typically between 75C and 105C (depending on PVC type). CLOTHING: Solution Polymers are made by joining small molecules into large ones.But most of these monomer molecules are perfectly stable as they are, so they have devised two general methods to make them react with each other, building up the backbone chain as the reaction proceeds. This method (also known as step-growth) requires that the monomers possess two or more kinds of functional groups that are able to react with each other in such a way that parts of these groups combine to form a small molecule (often H2O) which is eliminated from the two pieces. 2 Additional Polymerisation: Polymer play a major role in various industry sector and which are used in plastic bags ,water pipes outer layer of electric wires clothing and,woven fabric and also other materials. PLASTIC BAGS: WATER PIPES OUTER LAYER OF ELECTRIC WIRES: Outer layer of insulator is also called as electric insulator. It is the most commonly used thermoplastic insulator for cables. It is cheap, durable and widely available. However, the chlorine in PVC (a halogen) causes the production of thick, toxic, black smoke when burnt and can be a health hazard in areas where low smoke and toxicity are required Normal operating temperatures are typically between 75C and 105C (depending on PVC type). CLOTHING:.
Polymers are made by joining small molecules into large ones.But m.pdf
Polymers are made by joining small molecules into large ones.But m.pdf
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What is Operational Excellence?Achieving Operational Excellence requires the successful implementation of a integrated Business Execution System that effectively and seamlessly integrates the following four building blocks: 1)Strategy Deployment2)Performance Management3)Process Excellence and4)High Performance Work Teams.Strategy or Policy Deployment is the process that aligns and links business strategy and execution. Strategy Deployment Performance Management High Performance Work Teams Process Excellence Operational Excellence Business Execution System Strategy Deployment Process Tools: 1)The Hoshin X-Matrix is a tool that visualizes an organization’sstrategic objectives,strategic initiatives,key performance indicators,key projects &action items, andhuman resources requirements in one simple matrix. 2)The Hoshin X-Matrixenables an organization to easily review the alignment of its strategic objectives, strategicinitiatives, key performance indicators, key action items and human resources. Supply chain management:If you manage a small firm that makes a few products or sells a few services, chances are you will have a small number of suppliers. Supply chain: 1)A firm\'s supply chain is a network of organization and business processes for procuring raw materials, transforming these materials into intermediate and finished products, and distributing the finished products to customers.2)Supply chain software is classified as either software to help businesses plan their supply chains (supply chain planning) or software to help them execute the supply chain steps. 3)it manage the flow of products through distribution centers and warehouses to ensure that products are delivered to the right locations in the most efficient manner. Customer Relationship Management Systems 1) You were probably heard phrases such as the customer is always right or the customer comes first. Today these words ring more true than ever. 2)Because competitive advantage based on an innovative new product or service is often very short lived, companies are realizing that their only enduring competitive strength may be their relationships with their customers. 3) Some say that the basis of competition has switched from who sells the most products and services to whom own the customer, and that customer relationships represent a firm\'s most valuable asset. 4) Customer relationship management systems typically provide software and online tools for sales, customer service, and marketing. 5)Partner relationship management (PRM) uses many of the same data, tools, and systems as customer relationship management to enhance collaboration between a company and its selling partners. Enterprise Application: 1)Enterprise application require not only deep seated technological changes but also fundamental changes in the way the business operates. 2)Companies must make sweeping changes to their business processes to work with the software. 3)Companies adopting enterprise applications can .
What is Operational ExcellenceAchieving Operational Excellence requ.pdf
What is Operational ExcellenceAchieving Operational Excellence requ.pdf
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the name arsenic acid, like phosphoric acid (H3PO4), does notconvey the structure, but does fit into a general patternwhereby the ending ‘ic’ denotes a higher or the highest possible oxidation state (compare nitric acid, sulfuricacid). HClO: Hypochlorous Acid Solution the name arsenic acid, like phosphoric acid (H3PO4), does notconvey the structure, but does fit into a general patternwhereby the ending ‘ic’ denotes a higher or the highest possible oxidation state (compare nitric acid, sulfuricacid). HClO: Hypochlorous Acid.
the name arsenic acid, like phosphoric acid (H3PO4), does notconvey .pdf
the name arsenic acid, like phosphoric acid (H3PO4), does notconvey .pdf
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Sucrose is a molecular compound and does not ionize in solution. KCl is a soluble ionic compound and fully ionizes in solution: KCl(aq) => K+(aq) + Cl-(aq) Sucrose and KCl do not interact in solution. Mass balance equation: [KCl] = [K+] Charge balance equation: [K+] = [Cl-] Solution Sucrose is a molecular compound and does not ionize in solution. KCl is a soluble ionic compound and fully ionizes in solution: KCl(aq) => K+(aq) + Cl-(aq) Sucrose and KCl do not interact in solution. Mass balance equation: [KCl] = [K+] Charge balance equation: [K+] = [Cl-].
Sucrose is a molecular compound and does not ionize in solution.KC.pdf
Sucrose is a molecular compound and does not ionize in solution.KC.pdf
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C. Increasing the temperature of the system Solution C. Increasing the temperature of the system.
C. Increasing the temperature of the system .pdf
C. Increasing the temperature of the system .pdf
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because Electron Affinity is the amount of energy needed to add an electron to an atom or molecule.. Thus Decreasing its Stabillity and Whenever We have Decrease in Stability We Have A Negative Energy Released thus energy required and hence negative electron affinity..The Electron affinity of an atom or molecule is defined as the amount of energy released when an electron is added to a neutral atom or molecule to form a negative ion. X + e- ? X- (note: the correct equation in words is X + electron -> X + energy) This property is measured for atoms and molecules in the gaseous state only, since in the solid or liquid states their energy levels would be changed by contact with other atoms or molecules. A list of the electron affinities was used by Robert S. Mulliken to develop an electronegativity scale for atoms, equal to the average of the electron affinity and ionization potential.Other theoretical concepts that use electron affinity include electronic chemical potential and chemical hardness. Another example, a molecule or atom that has a more positive value of electron affinity than another is often called an electron acceptor and the less positive an electron donor. Together they may undergo charge- transfer reactions. In solids, the electron affinity is the energy difference between the vacuum energy and the conduction band minimum. To use electron affinities properly, it is essential to keep track of sign. For any reaction that releases energy, the change in energy, ?E, has a negative value and the reaction is called an exothermic process. Electron capture for almost all non-noble gas atoms involves the release of energy and thus are exothermic. The positive values that are listed in tables of Eea are amounts or magnitudes. It is the word, released within the definition energy released that supplies the negative sign. Confusion arises in mistaking Eea for a change in energy, ?E, in which case the positive values listed in tables would be for an endo- not exo- thermic process. The relation between the two is, Eea = - ?E(attach). However, if the value assigned to Eea is negative, the negative sign implies a reversal of direction, and energy is required to attach an electron. In this case, the electron capture is an endothermic process and the relationship, Eea = - ?E(attach) is still valid. Negative values typically arise for the capture of a second electron, but also for the nitrogen atom. The usual expression for calculating Eea when an electron is attached is Eea = (Einitial - Efinal)attach = - ?E(attach) This expression does follow the convention ?X = X(final) - X(initial) since - ?E = - (E(final) - E(initial)) = E(initial) - E(final). Equivalently, electron affinity can also be defined as the amount of energy required to detach an electron from a singly charged negative ion,i.e. the energy change for the process X- ? X + e- If the same table is employed for the forward and reverse reactions, without switching signs, care must be take.
because Electron Affinity is the amount of energy.pdf
because Electron Affinity is the amount of energy.pdf
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Ques-1: Clostredium botulinum, bacteria that cause food poisoning & it is the etiological agent in this outbreak of food poisoning Ques-2: This food intoxication because \"botulinum\" is the toxin generated by these bacteria by putrefying food material and these bacteria is anaerobic. These toxins are made of exotoxins, endotoxins (tetanus toxin, botulism toxin & cholera toxin) as these are composed of proteins, lipoppolysaccharides produced through cell wall to act on the host cell immune system. These are virulent and cause damage to host cells through inflammatory mediators released via phagocytosis by immune system. I would declare the situation as a sortumme an outbreak, this is because acute episodes of \"gastrointestinal illness is mainly due to food borne illness caused by \"clostridium botulinum\". It has observed clear symptoms of disease characterized by nausea, headache, blurred vision, bronchoconstriction due to stiffen throat & neck Fever, headache, nausea, and severe respiratory symptoms followed by blurred vision; this is because botulinum toxin is a neurotoxin that potentially inhibits release of acetylcholine from nerve endings and leading to drooping eyelid and slurred speech. Ques-3: Potato salad was transported in a loose in a pickup truck & it is not covered or packed before preparing meals therefore anaerobic fermentation of this carbohydrate is the source of contamination of this bacteria & cause food borne illness Solution Ques-1: Clostredium botulinum, bacteria that cause food poisoning & it is the etiological agent in this outbreak of food poisoning Ques-2: This food intoxication because \"botulinum\" is the toxin generated by these bacteria by putrefying food material and these bacteria is anaerobic. These toxins are made of exotoxins, endotoxins (tetanus toxin, botulism toxin & cholera toxin) as these are composed of proteins, lipoppolysaccharides produced through cell wall to act on the host cell immune system. These are virulent and cause damage to host cells through inflammatory mediators released via phagocytosis by immune system. I would declare the situation as a sortumme an outbreak, this is because acute episodes of \"gastrointestinal illness is mainly due to food borne illness caused by \"clostridium botulinum\". It has observed clear symptoms of disease characterized by nausea, headache, blurred vision, bronchoconstriction due to stiffen throat & neck Fever, headache, nausea, and severe respiratory symptoms followed by blurred vision; this is because botulinum toxin is a neurotoxin that potentially inhibits release of acetylcholine from nerve endings and leading to drooping eyelid and slurred speech. Ques-3: Potato salad was transported in a loose in a pickup truck & it is not covered or packed before preparing meals therefore anaerobic fermentation of this carbohydrate is the source of contamination of this bacteria & cause food borne illness.
Ques-1Clostredium botulinum, bacteria that cause food poisoning &.pdf
Ques-1Clostredium botulinum, bacteria that cause food poisoning &.pdf
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//Program //printing.c #include int main() { char ch=\'A\'; int i,j; //to print a) for(i=6;i>=0;i--) { for(j=0;j Solution //Program //printing.c #include int main() { char ch=\'A\'; int i,j; //to print a) for(i=6;i>=0;i--) { for(j=0;j.
Programprinting.c#include stdio.hint main() { cha.pdf
Programprinting.c#include stdio.hint main() { cha.pdf
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No. The points are open in N, but not in Q (with its standard topology, inherited from RR). Solution No. The points are open in N, but not in Q (with its standard topology, inherited from RR)..
No. The points are open in N, but not in Q (with its standard topolo.pdf
No. The points are open in N, but not in Q (with its standard topolo.pdf
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b. The carbonyl C atom is sp2 hybridized Solution b. The carbonyl C atom is sp2 hybridized.
b. The carbonyl C atom is sp2 hybridized .pdf
b. The carbonyl C atom is sp2 hybridized .pdf
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Horizontal Integration The activities which are complementary to present activity are developed in Horizontal integration. Or simply it is the strategy to increase your market share by taking over a similar company. Example: - You Tube, which was taken over my Google primarily because it had a strong and loyal user base. Vertical Integration The activities which are concerned with the inputs into the company’s current business is developed in Backward Integration while the one that are concerned with the company’s output are developed in Forward Integration. And this Backward and Forward integration into adjacent activities in the value network are called Vertical Integration. Or simply in order to increase that company’s in the marketplace several steps in the production and/or distribution of a product or service are controlled by a single company or entity. The process of achieving this several steps is known as Vertical Integration. Example: - Oracles bought Sun Microsystems and are now the best engineered systems (integrated hardware-and-software devices). Outsourcing When a third party performs a portion of a Company’s activities it is known as Outsourcing. It is important as it focuses on lowering costs and improving the efficient allocation of resources within a company. Some common outsourcing activities include: human resource management, facilities management, supply chain management, accounting, customer support and service, marketing, computer aided design, research, design, content writing, engineering, diagnostic services, and legal documentation. Co-operative relationship It is a win-win situation, in a Co-operative Relation a joint action or effort is required to enable people to work and operate together so that everybody will benefit. Example: - Baxter provides employment for the Mayo region in Castlebar, Co. Mayo. Solution Horizontal Integration The activities which are complementary to present activity are developed in Horizontal integration. Or simply it is the strategy to increase your market share by taking over a similar company. Example: - You Tube, which was taken over my Google primarily because it had a strong and loyal user base. Vertical Integration The activities which are concerned with the inputs into the company’s current business is developed in Backward Integration while the one that are concerned with the company’s output are developed in Forward Integration. And this Backward and Forward integration into adjacent activities in the value network are called Vertical Integration. Or simply in order to increase that company’s in the marketplace several steps in the production and/or distribution of a product or service are controlled by a single company or entity. The process of achieving this several steps is known as Vertical Integration. Example: - Oracles bought Sun Microsystems and are now the best engineered systems (integrated hardware-and-software devices). Outsourcing When a third party performs a p.
Horizontal IntegrationThe activities which are complementary to pr.pdf
Horizontal IntegrationThe activities which are complementary to pr.pdf
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Given: Complement of Solution Given: Complement of.
Given Complement of A and complement of B are congruent angles..pdf
Given Complement of A and complement of B are congruent angles..pdf
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For a first order reaction: ln(C/Co) = -kt where C os the ethanol concentration at time t, Co is initial concentration and k is rate constant. ln(5.0/15.0) = -k x 2.5 x 104 Rate constant k = 4.4 x 10-5 s-1 Solution For a first order reaction: ln(C/Co) = -kt where C os the ethanol concentration at time t, Co is initial concentration and k is rate constant. ln(5.0/15.0) = -k x 2.5 x 104 Rate constant k = 4.4 x 10-5 s-1.
For a first order reactionln(CCo) = -ktwhere C os the ethanol .pdf
For a first order reactionln(CCo) = -ktwhere C os the ethanol .pdf
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Ethics in accounting are concerned with how to make good and moral choices in regard to the preparation, presentation and disclosure of financial information. During the 1990s and 2000s, a series of financial reporting scandals brought this issue into the forefront. Knowing some of the issues presented in accounting ethics can help you ensure that you are considering some of the implications for the actions that you take with your own business. Fraudulent Financial Reporting Most accounting scandals over the last two decades have centered on fraudulent financial reporting. Fraudulent financial reporting is the misstatement of the financial statements by company management. Usually, this is carried out with the intent of misleading investors and maintaining the company\'s share price. While the effects of misleading financial reporting may boost the company\'s stock price in the short-term, there are almost always ill effects in the long run. This short-term focus on company finances is sometimes known as \"myopic management.\" Misappropriation of Assets On an individual employee level, the most common ethical issue in accounting is the misappropriation of assets. Misappropriation of assets is the use of company assets for any other purpose than company interests. Otherwise known as stealing or embezzlement, misappropriation of assets can occur at nearly any level of the company and to nearly any degree. For example, a senior level executive may charge a family dinner to the company as a business expense. At the same time, a line-level production employee may take home office supplies for personal use. In both cases, misappropriation of assets has occurred. Disclosure As a subtopic of fraudulent financial reporting, disclosure violations are errors of ethical omission. While intentionally recording transactions in a manner that is not in accordance with generally accepted accounting principles is considered fraudulent financial reporting, the failure to disclose information to investors that could change their decisions about investing in the company could be considered fraudulent financial reporting, as well. Penalties Penalties for violations of accounting ethics laws have increased greatly since the passage of the Sarbanes-Oxley Act of 2002. This legislation allows for harsh penalties for manipulating financial records, destroying information, interfering with an investigation and provides legal protection for whistle-blowers. Solution Ethics in accounting are concerned with how to make good and moral choices in regard to the preparation, presentation and disclosure of financial information. During the 1990s and 2000s, a series of financial reporting scandals brought this issue into the forefront. Knowing some of the issues presented in accounting ethics can help you ensure that you are considering some of the implications for the actions that you take with your own business. Fraudulent Financial Reporting Most accounting scandals over the .
Ethics in accounting are concerned with how to make good and moral c.pdf
Ethics in accounting are concerned with how to make good and moral c.pdf
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done Solution done.
doneSolutiondone.pdf
doneSolutiondone.pdf
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hydration of alkene. Solution hydration of alkene..
hydration of alkene. .pdf
hydration of alkene. .pdf
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H2O + NO + NO2 --> 2HNO2 Three molecules collide at an instant is rare, thus it is not an elementary reaction that can occur at a significant rate. Solution H2O + NO + NO2 --> 2HNO2 Three molecules collide at an instant is rare, thus it is not an elementary reaction that can occur at a significant rate..
H2O + NO + NO2 -- 2HNO2 Three molecules collide.pdf
H2O + NO + NO2 -- 2HNO2 Three molecules collide.pdf
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he coordination compounds , metal complexes or simply complexes are compounds which contain an ion or a central atom, usually a metal, surrounded by a collection of ions or molecules. The chance discovery dell\'esamminocobalto (III) chloride, CoCl 3 6 NH 3 , due to Tassaert in 1798 marks the beginning of the chemistry of the complexes. Many of the jobs immediately after they were made ??with ammonia and complex that resulted were called metallammine. Subsequently it was found that other amines and other anions such as CN - , NO 2 - , NCS - , Cl - can form complexes with metals. Many compounds were prepared with these anions and, at first, were called by the name of the chemical that prepared them first. Subsequently, because of the fact that many of these complexes was colored, was used a scheme of nomenclature based on the color. Our current knowledge about the nature of the metal complexes are due to Werner , in 1893 at the age of 26 years suggested that even today is called coordination theory of Werner. His most important are three postulates: Most of the elements have two types of meaning: a) primary valence and b) secondary valence. In modern terminology a) corresponds to the oxidation state and b) the coordination number Each element tends to satisfy the valence both primary and secondary The secondary valence is directed towards fixed positions of the space Consider the complex cloroamminocobalto (III). According to the theory of Werner the first member of the series has the formula Co [(NH 3 ) 6 ] Cl 3 and is represented as shown in the figure: (i upload for u on this address: Structures http://i45.tinypic.com/2l2654.gif http://i50.tinypic.com/jaykgy.jpg) The primary valence or oxidation state of the cobalt (III) is 3. The three ions Cl - primary saturate the valence of cobalt chloride ions and then the three primary saturate the valence of cobalt negative ions that neutralize the positive charge of the metal ion affect the primary value. Solution he coordination compounds , metal complexes or simply complexes are compounds which contain an ion or a central atom, usually a metal, surrounded by a collection of ions or molecules. The chance discovery dell\'esamminocobalto (III) chloride, CoCl 3 6 NH 3 , due to Tassaert in 1798 marks the beginning of the chemistry of the complexes. Many of the jobs immediately after they were made ??with ammonia and complex that resulted were called metallammine. Subsequently it was found that other amines and other anions such as CN - , NO 2 - , NCS - , Cl - can form complexes with metals. Many compounds were prepared with these anions and, at first, were called by the name of the chemical that prepared them first. Subsequently, because of the fact that many of these complexes was colored, was used a scheme of nomenclature based on the color. Our current knowledge about the nature of the metal complexes are due to Werner , in 1893 at the age of 26 years suggested that even today is called coordination .
he coordination compounds , metal complexes or si.pdf
he coordination compounds , metal complexes or si.pdf
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PdCl2 + 2DMSO ? PdCl2*2DMSO It forms a complexe. Solution PdCl2 + 2DMSO ? PdCl2*2DMSO It forms a complexe..
PdCl2 + 2DMSO PdCl22DMSO It forms a complexe..pdf
PdCl2 + 2DMSO PdCl22DMSO It forms a complexe..pdf
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melting point of the mixture decreases when small amount of naphthalene is added Solution melting point of the mixture decreases when small amount of naphthalene is added.
melting point of the mixture decreases when small.pdf
melting point of the mixture decreases when small.pdf
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Polymers are made by joining small molecules into large ones.But most of these monomer molecules are perfectly stable as they are, so they have devised two general methods to make them react with each other, building up the backbone chain as the reaction proceeds. This method (also known as step-growth) requires that the monomers possess two or more kinds of functional groups that are able to react with each other in such a way that parts of these groups combine to form a small molecule (often H2O) which is eliminated from the two pieces. 2 Additional Polymerisation: Polymer play a major role in various industry sector and which are used in plastic bags ,water pipes outer layer of electric wires clothing and,woven fabric and also other materials. PLASTIC BAGS: WATER PIPES OUTER LAYER OF ELECTRIC WIRES: Outer layer of insulator is also called as electric insulator. It is the most commonly used thermoplastic insulator for cables. It is cheap, durable and widely available. However, the chlorine in PVC (a halogen) causes the production of thick, toxic, black smoke when burnt and can be a health hazard in areas where low smoke and toxicity are required Normal operating temperatures are typically between 75C and 105C (depending on PVC type). CLOTHING: Solution Polymers are made by joining small molecules into large ones.But most of these monomer molecules are perfectly stable as they are, so they have devised two general methods to make them react with each other, building up the backbone chain as the reaction proceeds. This method (also known as step-growth) requires that the monomers possess two or more kinds of functional groups that are able to react with each other in such a way that parts of these groups combine to form a small molecule (often H2O) which is eliminated from the two pieces. 2 Additional Polymerisation: Polymer play a major role in various industry sector and which are used in plastic bags ,water pipes outer layer of electric wires clothing and,woven fabric and also other materials. PLASTIC BAGS: WATER PIPES OUTER LAYER OF ELECTRIC WIRES: Outer layer of insulator is also called as electric insulator. It is the most commonly used thermoplastic insulator for cables. It is cheap, durable and widely available. However, the chlorine in PVC (a halogen) causes the production of thick, toxic, black smoke when burnt and can be a health hazard in areas where low smoke and toxicity are required Normal operating temperatures are typically between 75C and 105C (depending on PVC type). CLOTHING:.
Polymers are made by joining small molecules into large ones.But m.pdf
Polymers are made by joining small molecules into large ones.But m.pdf
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What is Operational Excellence?Achieving Operational Excellence requires the successful implementation of a integrated Business Execution System that effectively and seamlessly integrates the following four building blocks: 1)Strategy Deployment2)Performance Management3)Process Excellence and4)High Performance Work Teams.Strategy or Policy Deployment is the process that aligns and links business strategy and execution. Strategy Deployment Performance Management High Performance Work Teams Process Excellence Operational Excellence Business Execution System Strategy Deployment Process Tools: 1)The Hoshin X-Matrix is a tool that visualizes an organization’sstrategic objectives,strategic initiatives,key performance indicators,key projects &action items, andhuman resources requirements in one simple matrix. 2)The Hoshin X-Matrixenables an organization to easily review the alignment of its strategic objectives, strategicinitiatives, key performance indicators, key action items and human resources. Supply chain management:If you manage a small firm that makes a few products or sells a few services, chances are you will have a small number of suppliers. Supply chain: 1)A firm\'s supply chain is a network of organization and business processes for procuring raw materials, transforming these materials into intermediate and finished products, and distributing the finished products to customers.2)Supply chain software is classified as either software to help businesses plan their supply chains (supply chain planning) or software to help them execute the supply chain steps. 3)it manage the flow of products through distribution centers and warehouses to ensure that products are delivered to the right locations in the most efficient manner. Customer Relationship Management Systems 1) You were probably heard phrases such as the customer is always right or the customer comes first. Today these words ring more true than ever. 2)Because competitive advantage based on an innovative new product or service is often very short lived, companies are realizing that their only enduring competitive strength may be their relationships with their customers. 3) Some say that the basis of competition has switched from who sells the most products and services to whom own the customer, and that customer relationships represent a firm\'s most valuable asset. 4) Customer relationship management systems typically provide software and online tools for sales, customer service, and marketing. 5)Partner relationship management (PRM) uses many of the same data, tools, and systems as customer relationship management to enhance collaboration between a company and its selling partners. Enterprise Application: 1)Enterprise application require not only deep seated technological changes but also fundamental changes in the way the business operates. 2)Companies must make sweeping changes to their business processes to work with the software. 3)Companies adopting enterprise applications can .
What is Operational ExcellenceAchieving Operational Excellence requ.pdf
What is Operational ExcellenceAchieving Operational Excellence requ.pdf
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the name arsenic acid, like phosphoric acid (H3PO4), does notconvey the structure, but does fit into a general patternwhereby the ending ‘ic’ denotes a higher or the highest possible oxidation state (compare nitric acid, sulfuricacid). HClO: Hypochlorous Acid Solution the name arsenic acid, like phosphoric acid (H3PO4), does notconvey the structure, but does fit into a general patternwhereby the ending ‘ic’ denotes a higher or the highest possible oxidation state (compare nitric acid, sulfuricacid). HClO: Hypochlorous Acid.
the name arsenic acid, like phosphoric acid (H3PO4), does notconvey .pdf
the name arsenic acid, like phosphoric acid (H3PO4), does notconvey .pdf
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Sucrose is a molecular compound and does not ionize in solution. KCl is a soluble ionic compound and fully ionizes in solution: KCl(aq) => K+(aq) + Cl-(aq) Sucrose and KCl do not interact in solution. Mass balance equation: [KCl] = [K+] Charge balance equation: [K+] = [Cl-] Solution Sucrose is a molecular compound and does not ionize in solution. KCl is a soluble ionic compound and fully ionizes in solution: KCl(aq) => K+(aq) + Cl-(aq) Sucrose and KCl do not interact in solution. Mass balance equation: [KCl] = [K+] Charge balance equation: [K+] = [Cl-].
Sucrose is a molecular compound and does not ionize in solution.KC.pdf
Sucrose is a molecular compound and does not ionize in solution.KC.pdf
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C. Increasing the temperature of the system Solution C. Increasing the temperature of the system.
C. Increasing the temperature of the system .pdf
C. Increasing the temperature of the system .pdf
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because Electron Affinity is the amount of energy needed to add an electron to an atom or molecule.. Thus Decreasing its Stabillity and Whenever We have Decrease in Stability We Have A Negative Energy Released thus energy required and hence negative electron affinity..The Electron affinity of an atom or molecule is defined as the amount of energy released when an electron is added to a neutral atom or molecule to form a negative ion. X + e- ? X- (note: the correct equation in words is X + electron -> X + energy) This property is measured for atoms and molecules in the gaseous state only, since in the solid or liquid states their energy levels would be changed by contact with other atoms or molecules. A list of the electron affinities was used by Robert S. Mulliken to develop an electronegativity scale for atoms, equal to the average of the electron affinity and ionization potential.Other theoretical concepts that use electron affinity include electronic chemical potential and chemical hardness. Another example, a molecule or atom that has a more positive value of electron affinity than another is often called an electron acceptor and the less positive an electron donor. Together they may undergo charge- transfer reactions. In solids, the electron affinity is the energy difference between the vacuum energy and the conduction band minimum. To use electron affinities properly, it is essential to keep track of sign. For any reaction that releases energy, the change in energy, ?E, has a negative value and the reaction is called an exothermic process. Electron capture for almost all non-noble gas atoms involves the release of energy and thus are exothermic. The positive values that are listed in tables of Eea are amounts or magnitudes. It is the word, released within the definition energy released that supplies the negative sign. Confusion arises in mistaking Eea for a change in energy, ?E, in which case the positive values listed in tables would be for an endo- not exo- thermic process. The relation between the two is, Eea = - ?E(attach). However, if the value assigned to Eea is negative, the negative sign implies a reversal of direction, and energy is required to attach an electron. In this case, the electron capture is an endothermic process and the relationship, Eea = - ?E(attach) is still valid. Negative values typically arise for the capture of a second electron, but also for the nitrogen atom. The usual expression for calculating Eea when an electron is attached is Eea = (Einitial - Efinal)attach = - ?E(attach) This expression does follow the convention ?X = X(final) - X(initial) since - ?E = - (E(final) - E(initial)) = E(initial) - E(final). Equivalently, electron affinity can also be defined as the amount of energy required to detach an electron from a singly charged negative ion,i.e. the energy change for the process X- ? X + e- If the same table is employed for the forward and reverse reactions, without switching signs, care must be take.
because Electron Affinity is the amount of energy.pdf
because Electron Affinity is the amount of energy.pdf
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Ques-1: Clostredium botulinum, bacteria that cause food poisoning & it is the etiological agent in this outbreak of food poisoning Ques-2: This food intoxication because \"botulinum\" is the toxin generated by these bacteria by putrefying food material and these bacteria is anaerobic. These toxins are made of exotoxins, endotoxins (tetanus toxin, botulism toxin & cholera toxin) as these are composed of proteins, lipoppolysaccharides produced through cell wall to act on the host cell immune system. These are virulent and cause damage to host cells through inflammatory mediators released via phagocytosis by immune system. I would declare the situation as a sortumme an outbreak, this is because acute episodes of \"gastrointestinal illness is mainly due to food borne illness caused by \"clostridium botulinum\". It has observed clear symptoms of disease characterized by nausea, headache, blurred vision, bronchoconstriction due to stiffen throat & neck Fever, headache, nausea, and severe respiratory symptoms followed by blurred vision; this is because botulinum toxin is a neurotoxin that potentially inhibits release of acetylcholine from nerve endings and leading to drooping eyelid and slurred speech. Ques-3: Potato salad was transported in a loose in a pickup truck & it is not covered or packed before preparing meals therefore anaerobic fermentation of this carbohydrate is the source of contamination of this bacteria & cause food borne illness Solution Ques-1: Clostredium botulinum, bacteria that cause food poisoning & it is the etiological agent in this outbreak of food poisoning Ques-2: This food intoxication because \"botulinum\" is the toxin generated by these bacteria by putrefying food material and these bacteria is anaerobic. These toxins are made of exotoxins, endotoxins (tetanus toxin, botulism toxin & cholera toxin) as these are composed of proteins, lipoppolysaccharides produced through cell wall to act on the host cell immune system. These are virulent and cause damage to host cells through inflammatory mediators released via phagocytosis by immune system. I would declare the situation as a sortumme an outbreak, this is because acute episodes of \"gastrointestinal illness is mainly due to food borne illness caused by \"clostridium botulinum\". It has observed clear symptoms of disease characterized by nausea, headache, blurred vision, bronchoconstriction due to stiffen throat & neck Fever, headache, nausea, and severe respiratory symptoms followed by blurred vision; this is because botulinum toxin is a neurotoxin that potentially inhibits release of acetylcholine from nerve endings and leading to drooping eyelid and slurred speech. Ques-3: Potato salad was transported in a loose in a pickup truck & it is not covered or packed before preparing meals therefore anaerobic fermentation of this carbohydrate is the source of contamination of this bacteria & cause food borne illness.
Ques-1Clostredium botulinum, bacteria that cause food poisoning &.pdf
Ques-1Clostredium botulinum, bacteria that cause food poisoning &.pdf
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//Program //printing.c #include int main() { char ch=\'A\'; int i,j; //to print a) for(i=6;i>=0;i--) { for(j=0;j Solution //Program //printing.c #include int main() { char ch=\'A\'; int i,j; //to print a) for(i=6;i>=0;i--) { for(j=0;j.
Programprinting.c#include stdio.hint main() { cha.pdf
Programprinting.c#include stdio.hint main() { cha.pdf
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No. The points are open in N, but not in Q (with its standard topology, inherited from RR). Solution No. The points are open in N, but not in Q (with its standard topology, inherited from RR)..
No. The points are open in N, but not in Q (with its standard topolo.pdf
No. The points are open in N, but not in Q (with its standard topolo.pdf
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b. The carbonyl C atom is sp2 hybridized Solution b. The carbonyl C atom is sp2 hybridized.
b. The carbonyl C atom is sp2 hybridized .pdf
b. The carbonyl C atom is sp2 hybridized .pdf
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Horizontal Integration The activities which are complementary to present activity are developed in Horizontal integration. Or simply it is the strategy to increase your market share by taking over a similar company. Example: - You Tube, which was taken over my Google primarily because it had a strong and loyal user base. Vertical Integration The activities which are concerned with the inputs into the company’s current business is developed in Backward Integration while the one that are concerned with the company’s output are developed in Forward Integration. And this Backward and Forward integration into adjacent activities in the value network are called Vertical Integration. Or simply in order to increase that company’s in the marketplace several steps in the production and/or distribution of a product or service are controlled by a single company or entity. The process of achieving this several steps is known as Vertical Integration. Example: - Oracles bought Sun Microsystems and are now the best engineered systems (integrated hardware-and-software devices). Outsourcing When a third party performs a portion of a Company’s activities it is known as Outsourcing. It is important as it focuses on lowering costs and improving the efficient allocation of resources within a company. Some common outsourcing activities include: human resource management, facilities management, supply chain management, accounting, customer support and service, marketing, computer aided design, research, design, content writing, engineering, diagnostic services, and legal documentation. Co-operative relationship It is a win-win situation, in a Co-operative Relation a joint action or effort is required to enable people to work and operate together so that everybody will benefit. Example: - Baxter provides employment for the Mayo region in Castlebar, Co. Mayo. Solution Horizontal Integration The activities which are complementary to present activity are developed in Horizontal integration. Or simply it is the strategy to increase your market share by taking over a similar company. Example: - You Tube, which was taken over my Google primarily because it had a strong and loyal user base. Vertical Integration The activities which are concerned with the inputs into the company’s current business is developed in Backward Integration while the one that are concerned with the company’s output are developed in Forward Integration. And this Backward and Forward integration into adjacent activities in the value network are called Vertical Integration. Or simply in order to increase that company’s in the marketplace several steps in the production and/or distribution of a product or service are controlled by a single company or entity. The process of achieving this several steps is known as Vertical Integration. Example: - Oracles bought Sun Microsystems and are now the best engineered systems (integrated hardware-and-software devices). Outsourcing When a third party performs a p.
Horizontal IntegrationThe activities which are complementary to pr.pdf
Horizontal IntegrationThe activities which are complementary to pr.pdf
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Given: Complement of Solution Given: Complement of.
Given Complement of A and complement of B are congruent angles..pdf
Given Complement of A and complement of B are congruent angles..pdf
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For a first order reaction: ln(C/Co) = -kt where C os the ethanol concentration at time t, Co is initial concentration and k is rate constant. ln(5.0/15.0) = -k x 2.5 x 104 Rate constant k = 4.4 x 10-5 s-1 Solution For a first order reaction: ln(C/Co) = -kt where C os the ethanol concentration at time t, Co is initial concentration and k is rate constant. ln(5.0/15.0) = -k x 2.5 x 104 Rate constant k = 4.4 x 10-5 s-1.
For a first order reactionln(CCo) = -ktwhere C os the ethanol .pdf
For a first order reactionln(CCo) = -ktwhere C os the ethanol .pdf
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Ethics in accounting are concerned with how to make good and moral choices in regard to the preparation, presentation and disclosure of financial information. During the 1990s and 2000s, a series of financial reporting scandals brought this issue into the forefront. Knowing some of the issues presented in accounting ethics can help you ensure that you are considering some of the implications for the actions that you take with your own business. Fraudulent Financial Reporting Most accounting scandals over the last two decades have centered on fraudulent financial reporting. Fraudulent financial reporting is the misstatement of the financial statements by company management. Usually, this is carried out with the intent of misleading investors and maintaining the company\'s share price. While the effects of misleading financial reporting may boost the company\'s stock price in the short-term, there are almost always ill effects in the long run. This short-term focus on company finances is sometimes known as \"myopic management.\" Misappropriation of Assets On an individual employee level, the most common ethical issue in accounting is the misappropriation of assets. Misappropriation of assets is the use of company assets for any other purpose than company interests. Otherwise known as stealing or embezzlement, misappropriation of assets can occur at nearly any level of the company and to nearly any degree. For example, a senior level executive may charge a family dinner to the company as a business expense. At the same time, a line-level production employee may take home office supplies for personal use. In both cases, misappropriation of assets has occurred. Disclosure As a subtopic of fraudulent financial reporting, disclosure violations are errors of ethical omission. While intentionally recording transactions in a manner that is not in accordance with generally accepted accounting principles is considered fraudulent financial reporting, the failure to disclose information to investors that could change their decisions about investing in the company could be considered fraudulent financial reporting, as well. Penalties Penalties for violations of accounting ethics laws have increased greatly since the passage of the Sarbanes-Oxley Act of 2002. This legislation allows for harsh penalties for manipulating financial records, destroying information, interfering with an investigation and provides legal protection for whistle-blowers. Solution Ethics in accounting are concerned with how to make good and moral choices in regard to the preparation, presentation and disclosure of financial information. During the 1990s and 2000s, a series of financial reporting scandals brought this issue into the forefront. Knowing some of the issues presented in accounting ethics can help you ensure that you are considering some of the implications for the actions that you take with your own business. Fraudulent Financial Reporting Most accounting scandals over the .
Ethics in accounting are concerned with how to make good and moral c.pdf
Ethics in accounting are concerned with how to make good and moral c.pdf
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done Solution done.
doneSolutiondone.pdf
doneSolutiondone.pdf
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Sucrose is a molecular compound and does not ionize in solution.KC.pdf
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Programprinting.c#include stdio.hint main() { cha.pdf
Programprinting.c#include stdio.hint main() { cha.pdf
No. The points are open in N, but not in Q (with its standard topolo.pdf
No. The points are open in N, but not in Q (with its standard topolo.pdf
b. The carbonyl C atom is sp2 hybridized .pdf
b. The carbonyl C atom is sp2 hybridized .pdf
Horizontal IntegrationThe activities which are complementary to pr.pdf
Horizontal IntegrationThe activities which are complementary to pr.pdf
Given Complement of A and complement of B are congruent angles..pdf
Given Complement of A and complement of B are congruent angles..pdf
For a first order reactionln(CCo) = -ktwhere C os the ethanol .pdf
For a first order reactionln(CCo) = -ktwhere C os the ethanol .pdf
Ethics in accounting are concerned with how to make good and moral c.pdf
Ethics in accounting are concerned with how to make good and moral c.pdf
doneSolutiondone.pdf
doneSolutiondone.pdf
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1.
Carboxybenzene Benzenemethanoic Acid Solution Carboxybenzene
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