SlideShare uma empresa Scribd logo

Comets

Transferir como DOCX, PDF
I
Irychrist Alfante
Tecnologia
1 de 7
Comets A comet is a celestial body that revolves around the sun. Comets have a long tail. Early comets were described as a phonomenon. The Danish astronomer, Tycho Brahe, proved that comets were celestial bodies. A comet is made of a sharp nucleus, or center. It is also described as a "dirty snowball" because of the ice and dust on the comet. When a comet comes toward the sun, the solar heat evaporates so that the ice on the comet brightens. When this happens, the comet has a tail that might sometimes lenghten to a point of being many millions of kilometers in space. The tail of the comet is usually turned away from the sun. Comets also have elliptical orbits. Sometimes comets travel in a group that has nearly the same orbit. They are said to be members of a comet group. The most famous group is Ikeya-Seki of 1956. Comets have been known to be important events. The presence of a comet has also given fear of a collision between the comet and the earth. The earth has passed through the tails of comets without much effect. Although a collision of a comet with a city would destroy the city, it will probably never occur again. Asteroids Asteroids are one of the many minor planets of the solar system. The largest asteroids are Ceres, Pallas, and Vesta. The mass of an asteroid of is much less than the mass of the Moon. Few scientists now believe that asteroids are the remains of a former planet. They think that asteroids have a place in the solar system where a planet could've formed, but the gravity of Jupiter prevented it from happening. Some unusual asteroids are made of iron-nickel alloy. Asteroids, like meteorites, can be classified into specific types. Most asteroids are related to the meteorites known as "irons". A few asteroids, such as Vesta, are probably related to the rarest meteorite class of all. It is the achondrites. These asteroids look like it has the surface composition of many lunar and terrestrial lava flows.
Meteors A meteor is a solid body that enters a planet's atmosphere from space. Brilliant meteors, consists of a radiant head and then it is followed by a tail of light, like a comet. Other meteors, called bolides, have been seen to explode. When bolides explode, they sound like thunder. Fainter meteors, called shooting stars, occur occasionally. At some times, hundreds of meteors can occur at once. These swarms are called meteor showers. Some appear annually on the same days of the year. They are called periodic showers. Others occur at different times each year. A meteor that reaches the surface of the earth or another planet is called a meteorite. A meteoroid is a solid body orbiting the sun. It will become a meteor if it enters earth's atmosphere. The majority of meteoroids are the size of grains of dust, but they can be larger without any limit.
Asteroids ASTEROIDS Asteroids are rocky or metallic objects, most of which orbit the Sun in the asteroid belt between Mars and Jupiter. A few asteroids approach the Sun more closely. None of the asteroids have atmospheres. Asteroids are also known as planetoids or minor planets. Asteroid 253 Mathilde, a Near- Earth Asteroid photographed by NASA's NEAR (Near Earth Asteroid Rendezvous) mission in June 1997. Mathilde is about 60 km in diameter and orbits in the asteroid belt between Mars and Jupiter. THE ASTEROID BELT The asteroid belt is a doughnut-shaped concentration of asteroids orbiting the Sun between the orbits of Mars and Jupiter, closer to the orbit of Mars. Most asteroids orbit from between 186 million to 370 million miles (300 million to 600 million km or 2 to 4 AU) from the Sun. The asteroids in the asteroid belt have a slightly elliptical orbit. The time for one revolution around the Sun varies from about three to six Earth years. The strong gravitational force of the planet Jupiter shepherds the asteroid belt, pulling the asteroids away from the Sun, keeping them from careening into the inner planets. THE KIRKWOOD GAPS The asteroid belt is not smooth; there are concentric gaps in it (known as Kirkwood gaps). These gaps are orbital radii where the gravitational forces from Jupiter do not let asteroids orbit (they would be pulled towards Jupiter). For example, an orbit in which an asteroid orbited the Sun exactly three times for each Jovian orbit would experience great gravitational forces each orbit, and would soon be pulled out of that orbit. There is a gap at 3.28 AU (which corresponds to 1/2 of Jupiter's period), another at 2.50 AU (which corresponds to 1/3 of Jupiter's period), etc. The Kirkwood gaps are named for Daniel Kirkwood who discovered them in 1866.
HOW MANY ASTEROIDS ARE THERE? There are about 40,000 known asteroids that are over 0.5 miles (1 km) in diameter in the asteroid belt. About 3,000 asteroids have been cataloged. There are many more smaller asteroids. The first one discovered (and the biggest) is named Ceres; it was discovered in 1801. Gaspra, Asteroid #951. THE SIZES OF ASTEROIDS Asteroids range in size from tiny pebbles to about 578 miles (930 kilometers) in diameter (Ceres). Sixteen of the 3,000 known asteroids are over 150 miles (240 km) in diameter. Some asteroids even have orbiting moons. Asteroid 4 Vesta, the brightest asteroid and the fourth largest. Vesta is the only asteroid that can be seen without a telescope (it is sixth magnitude). CERES: THE LARGEST ASTEROID Ceres is the largest of the asteroids. It was the first asteroid ever discovered (by the Italian astronomer Giuseppe Piazzi on January 1, 1801). Ceres is the size of the state of Texas! It is so huge in comparison with the other asteroids that its mass is equal to over one-third of the 2.3 x 1021 kg estimated total mass of all the 3,000 cataloged asteroids. Ceres is about 578 miles (930 kilometers) in diameter. Ceres is now considered to be a dwarf planet. ASTEROIDS BECOMING MOONS Asteroids can be pulled out of their solar orbit by the gravitational pull of a planet. They would then orbit that planet instead of orbiting the Sun. Astronomers theorize that the two moons of Mars, Phobos and Deimos, are captured asteroids. The asteroid 243 Ida and its tiny asteroid moon, Dactyl. This is the first asteroid ever found with an orbiting moon. Ida's dimensions are about 56 x 24 x 21 kilometers (35 x 15 x 13 miles). Dactyl is only about 1.2 x 1.4 x 1.6 km (0.75 x 0.87 x 1 mile) across.
ORIGIN OF THE ASTEROID BELT The asteroid belt may be material that never coalesced into a planet, perhaps because its mass was too small; the total mass of all the asteroids is only a small fraction of that of our Moon. The total mass of all the asteroids is about 2.3 x 1021 kg ); our moon's mass is 7.35 x 1022 kg; the asteroids' mass combined is about 1/30 of the mass of the Moon. A less satisfactory explanation of the origin of the asteroid belt is that it may have once been a planet that was fragmented by a collision with a huge comet. TROJAN ASTEROIDS Trojan asteroids are asteroids that orbit in gravitationally stable Lagrange points in a planet's orbit, either trailing it or preceding it (these places are where the gravitational attraction of the Sun and of the planet balance each other). Jupiter has the most Trojan asteroids; Mars also has some. Achilles was the first Trojan asteroid found. The asteroids preceding Jupiter in its orbit were named for Greek heroes; those following Jupiter in its orbit were named for Trojan heroes. Introduction to Comets A comet is a small, icy celestial body that orbits around the sun. It is made up of a nucleus (solid, frozen ice, gas and dust), a gaseous coma (water vapor, CO2, and other gases) and a long tail (made of dust and ionized gases). The tail develops when the comet is near the Sun. Its long ion tail of always points away from the sun, because of the force of the solar wind. The tail can be up to 250 million km long, and is most of what we see. Comets are only visible when they're near the sun in their highly eccentric orbits. PARTS OF A COMET Nucleus: The nucleus is the frozen center of a comet's head. It is composed of ice, gas, and dust. The nucleus contains most of the comet's mass but is very small (about 1 to 10 km across - or more). Coma: The coma is the roughly spherical blob of gas that surrounds the nucleus of a comet; it is about a million km across. The coma is comprised of water vapor, carbon dioxide gas, ammonia, dust, and neutral gases that have sublimed from the solid nucleus. The coma and the nucleus form the head of a comet. Ion Tail: A tail of charged gases (ions) always faces away from the sun because the solar wind (ions streaming from the sun at high velocities) pushes it away (it is also called the plasma tail). When the comet is approaching the Sun, the ion tail trails the comet: when the comet is leaving of the Sun, the ion
tail leads. The tail fades as the comet moves far from the Sun. The ion tail can be well over 100 million km long. Dust Tail: The dust tail is a long, wide tailcomposed of microscopic dust particles that are buffeted by photons emitted from the Sun; this tail curves slightly due to the comet's motion. The tail fades as the comet moves far from the Sun. Hydrogen Envelope: Hydrogen gas surrounds the coma of the comet and trails along for millions of miles (it is usually between the ion tail and the dust tail). The hydrogen envelope is about 10 million km across at the nucleus of the comet and about 100 million km long. It is bigger when the comet is near the Sun. A COMET'S ORBIT Comets orbit the Sun in highly elliptical orbits. Their velocity increases greatly when they are near the Sun and slows down at the far reaches of the orbit. Since the comet is light only when it is near the Sun (and is it vaporizing), comets are dark (virtually invisible) throughout most of their orbit. The solar wind pushes the tail away from the Sun. Some comets crash into the Sun or get so close that they burn up; these comets are called sungrazers. COMET EXPLORATION NASA's Stardust Mission will visit the Comet Wild 2 in 2004. It will take a sample of comet particles and return them to Earth. The small spacecraft (about 770 pounds = 350 kg) was launched February 7, 1999 and rendezvoused with comet Wild 2 in January, 2004. It will return to Earth on January 15, 2006, and land in western Utah, USA. Comet Wild 2 (aka Comet 81P) is a short- period comet that was discovered by the Swiss astronomer Paul Wild on January 6, 1978. The comet's nucleus is about 3 miles (5 km) across. Wild 2 orbits the Sun every 6.39 years; its elliptical orbit ranges from about Mars' orbit to Jupiter's orbit. COSMIC SNOWBALLS There is a new and very controversial theory that comets (composed of frozen water) are constantly bombarding the Earth. These "cosmic snowballs" have (perhaps) been seen by the visible imaging system of the Polar Satellite. In theory, these frozen comets vaporize in the atmosphere, adding water vapor to the environment.
METEOROIDS Meteoroids are small bodies that travel through space. Meteoroids are smaller than asteroids; most are smaller than the size of a pebble. Meteoroids have many sources. Most meteoroids come from asteroids that are broken apart by impacts with other asteroids. Other meteoroids come from the Moon, from comets, and from the planet Mars. METEORS A meteor is a meteoroid that has entered the Earth's atmosphere, usually making a fiery trail as it falls. It is sometimes called a shooting star or a falling star. Just before a meteor enter's the Earth's atmosphere, it is moving at roughly 70 kilometers per second. The friction between the fast-moving meteor and the gas in the Earth's atmosphere causes intense heat; the meteor glows with heat and then burns. Most meteors burn up before hitting the Earth. Only large meteors can survive the trip through our atmosphere. A fireball is any meteor that is brighter than Venus (magnitude -4). A meteor shower is a phenomenon in which many meteors fall through the atmosphere in a relatively short time and in approximately parallel trajectories. A very intense meteor shower is called a meteor storm. METEORITES A meteorite is a meteor that has fallen to Earth. These rare objects have survived a fiery fall through the Earth's atmosphere and have lost a lot of mass during that process. Meteorites are made up of rock and/or metals Sources: http://www.enchantedlearning.com/subjects/astronomy/asteroids/index.shtml http://library.thinkquest.org/J001665/cam.html#

Recomendados

Dtu10e lecture ppt_ch09 2
Dtu10e lecture ppt_ch09 2Dtu10e lecture ppt_ch09 2
Dtu10e lecture ppt_ch09 2
Asma Said,PhD
 
E1 - Introduction to the Universe
E1 - Introduction to the UniverseE1 - Introduction to the Universe
E1 - Introduction to the Universe
simonandisa
 
Scientific culture.u1. the universe ppt
Scientific culture.u1. the universe pptScientific culture.u1. the universe ppt
Scientific culture.u1. the universe ppt
Irene Santos Fraile
 
5 cs’s fun space facts
5 cs’s fun space facts5 cs’s fun space facts
5 cs’s fun space facts
melenha
 
The Solar System
The Solar SystemThe Solar System
The Solar System
Sarbjit Singh
 
Final Project
Final ProjectFinal Project
Final Project
carlotta
 
FINAL project
FINAL projectFINAL project
FINAL project
carlotta
 
Amber
AmberAmber
Amber
AmberRicketts
 

Recomendados

Dtu10e lecture ppt_ch09 2
Dtu10e lecture ppt_ch09 2Dtu10e lecture ppt_ch09 2
Dtu10e lecture ppt_ch09 2
Asma Said,PhD
 
E1 - Introduction to the Universe
E1 - Introduction to the UniverseE1 - Introduction to the Universe
E1 - Introduction to the Universe
simonandisa
 
Scientific culture.u1. the universe ppt
Scientific culture.u1. the universe pptScientific culture.u1. the universe ppt
Scientific culture.u1. the universe ppt
Irene Santos Fraile
 
5 cs’s fun space facts
5 cs’s fun space facts5 cs’s fun space facts
5 cs’s fun space facts
melenha
 
The Solar System
The Solar SystemThe Solar System
The Solar System
Sarbjit Singh
 
Final Project
Final ProjectFinal Project
Final Project
carlotta
 
FINAL project
FINAL projectFINAL project
FINAL project
carlotta
 
Amber
AmberAmber
Amber
AmberRicketts
 
OUR SOLAR SYSTEM
OUR SOLAR SYSTEMOUR SOLAR SYSTEM
OUR SOLAR SYSTEM
aazmi.shihab
 
The sun, stars and solar system
The sun, stars and solar systemThe sun, stars and solar system
The sun, stars and solar system
mysticnishant99
 
Astronomy
AstronomyAstronomy
Astronomy
Christopher Espero
 
Thesolarsystem
Thesolarsystem Thesolarsystem
Thesolarsystem
Foo Ling
 
Astronomy
AstronomyAstronomy
Astronomy
rebelbrindley
 
Asteroids
AsteroidsAsteroids
Asteroids
openfireten
 
The Universe
The UniverseThe Universe
The Universe
zainul2002
 
Elementary astronomy
Elementary astronomyElementary astronomy
Elementary astronomy
KAZEMBETVOnline
 
Astronomy
AstronomyAstronomy
Astronomy
hassan45k
 
Space Test Review
Space Test ReviewSpace Test Review
Space Test Review
theMrNeale
 
Stars and the solar system
Stars and the solar systemStars and the solar system
Stars and the solar system
Rohan Bernard
 
Shikhar
ShikharShikhar
Shikhar
Shikhar Mishra
 
Science project 3
Science project 3Science project 3
Science project 3
Aswin R
 
ICSE Class VIII Physics The Universe - TopperLearning
ICSE Class VIII Physics The Universe - TopperLearningICSE Class VIII Physics The Universe - TopperLearning
ICSE Class VIII Physics The Universe - TopperLearning
Alok Singh
 
1ESOproject light
1ESOproject light1ESOproject light
1ESOproject light
Toribio Florez Lopez
 
Astronomy
AstronomyAstronomy
Astronomy
Dinesh Gaekwad
 
The Moon - Gateway To The Stars
The Moon - Gateway To The StarsThe Moon - Gateway To The Stars
The Moon - Gateway To The Stars
MUHAMMEDAWAIS4
 
Astrophysics lecture
Astrophysics lectureAstrophysics lecture
Astrophysics lecture
Ahmed Haider
 
12.16.12 final review
12.16.12 final review12.16.12 final review
12.16.12 final review
Amarachi Ibe
 
The Solar System (Space)
The Solar System (Space)The Solar System (Space)
The Solar System (Space)
guestbd73aa
 
ASTERIODS.pptx
ASTERIODS.pptxASTERIODS.pptx
ASTERIODS.pptx
TUMOGSOCJUNEMARISC
 
Comets, Asteriods, and Meteors
Comets, Asteriods, and MeteorsComets, Asteriods, and Meteors
Comets, Asteriods, and Meteors
Dex Wasin
 

Mais conteúdo relacionado

Mais procurados

Thesolarsystem
Thesolarsystem Thesolarsystem
Thesolarsystem
Foo Ling
 
Space Test Review
Space Test ReviewSpace Test Review
Space Test Review
theMrNeale
 
Science project 3
Science project 3Science project 3
Science project 3
Aswin R
 
12.16.12 final review
12.16.12 final review12.16.12 final review
12.16.12 final review
Amarachi Ibe
 

Mais procurados (20)

OUR SOLAR SYSTEM
OUR SOLAR SYSTEMOUR SOLAR SYSTEM
OUR SOLAR SYSTEM
 
The sun, stars and solar system
The sun, stars and solar systemThe sun, stars and solar system
The sun, stars and solar system
 
Astronomy
AstronomyAstronomy
Astronomy
 
Thesolarsystem
Thesolarsystem Thesolarsystem
Thesolarsystem
 
Astronomy
AstronomyAstronomy
Astronomy
 
Asteroids
AsteroidsAsteroids
Asteroids
 
The Universe
The UniverseThe Universe
The Universe
 
Elementary astronomy
Elementary astronomyElementary astronomy
Elementary astronomy
 
Astronomy
AstronomyAstronomy
Astronomy
 
Space Test Review
Space Test ReviewSpace Test Review
Space Test Review
 
Stars and the solar system
Stars and the solar systemStars and the solar system
Stars and the solar system
 
Shikhar
ShikharShikhar
Shikhar
 
Science project 3
Science project 3Science project 3
Science project 3
 
ICSE Class VIII Physics The Universe - TopperLearning
ICSE Class VIII Physics The Universe - TopperLearningICSE Class VIII Physics The Universe - TopperLearning
ICSE Class VIII Physics The Universe - TopperLearning
 
1ESOproject light
1ESOproject light1ESOproject light
1ESOproject light
 
Astronomy
AstronomyAstronomy
Astronomy
 
The Moon - Gateway To The Stars
The Moon - Gateway To The StarsThe Moon - Gateway To The Stars
The Moon - Gateway To The Stars
 
Astrophysics lecture
Astrophysics lectureAstrophysics lecture
Astrophysics lecture
 
12.16.12 final review
12.16.12 final review12.16.12 final review
12.16.12 final review
 
The Solar System (Space)
The Solar System (Space)The Solar System (Space)
The Solar System (Space)
 

Semelhante a Comets

cometsasteriodsandmeteors-151126140358-lva1-app6892.pdf
cometsasteriodsandmeteors-151126140358-lva1-app6892.pdfcometsasteriodsandmeteors-151126140358-lva1-app6892.pdf
cometsasteriodsandmeteors-151126140358-lva1-app6892.pdf
GretchenJavier1
 
Eclipse and its types with asteroid comets and meteorites and black hole
Eclipse and its types with asteroid comets and meteorites and black hole Eclipse and its types with asteroid comets and meteorites and black hole
Eclipse and its types with asteroid comets and meteorites and black hole
GCUF
 
Science 8 2nd Qtr Lesson 5 Asteroid and Comet.pptx
Science 8 2nd Qtr Lesson 5 Asteroid and Comet.pptxScience 8 2nd Qtr Lesson 5 Asteroid and Comet.pptx
Science 8 2nd Qtr Lesson 5 Asteroid and Comet.pptx
MaricelYamat1
 
b) Explain how the three debris fields (i-e-- Main Asteroid Belt- Kuip.docx
b) Explain how the three debris fields (i-e-- Main Asteroid Belt- Kuip.docxb) Explain how the three debris fields (i-e-- Main Asteroid Belt- Kuip.docx
b) Explain how the three debris fields (i-e-- Main Asteroid Belt- Kuip.docx
bickerstaffinell
 

Semelhante a Comets (20)

ASTERIODS.pptx
ASTERIODS.pptxASTERIODS.pptx
ASTERIODS.pptx
 
Comets, Asteriods, and Meteors
Comets, Asteriods, and MeteorsComets, Asteriods, and Meteors
Comets, Asteriods, and Meteors
 
cometsasteriodsandmeteors-151126140358-lva1-app6892.pdf
cometsasteriodsandmeteors-151126140358-lva1-app6892.pdfcometsasteriodsandmeteors-151126140358-lva1-app6892.pdf
cometsasteriodsandmeteors-151126140358-lva1-app6892.pdf
 
Asteroids and comets
Asteroids and cometsAsteroids and comets
Asteroids and comets
 
Small solar system bodies
Small solar system bodiesSmall solar system bodies
Small solar system bodies
 
Asteroids *
Asteroids *Asteroids *
Asteroids *
 
G8-Science-Q2-Week-6-Compare-and-contrast-comets-meteors-and-asteroids-pptx.pptx
G8-Science-Q2-Week-6-Compare-and-contrast-comets-meteors-and-asteroids-pptx.pptxG8-Science-Q2-Week-6-Compare-and-contrast-comets-meteors-and-asteroids-pptx.pptx
G8-Science-Q2-Week-6-Compare-and-contrast-comets-meteors-and-asteroids-pptx.pptx
 
Eclipse and its types with asteroid comets and meteorites and black hole
Eclipse and its types with asteroid comets and meteorites and black hole Eclipse and its types with asteroid comets and meteorites and black hole
Eclipse and its types with asteroid comets and meteorites and black hole
 
Other members of solar system
Other members of solar systemOther members of solar system
Other members of solar system
 
Introduction of Solar System
Introduction of Solar SystemIntroduction of Solar System
Introduction of Solar System
 
Science 8 2nd Qtr Lesson 5 Asteroid and Comet.pptx
Science 8 2nd Qtr Lesson 5 Asteroid and Comet.pptxScience 8 2nd Qtr Lesson 5 Asteroid and Comet.pptx
Science 8 2nd Qtr Lesson 5 Asteroid and Comet.pptx
 
Q2-Lesson-3-other-members-of-the-solar-system-ppt-1.pptx
Q2-Lesson-3-other-members-of-the-solar-system-ppt-1.pptxQ2-Lesson-3-other-members-of-the-solar-system-ppt-1.pptx
Q2-Lesson-3-other-members-of-the-solar-system-ppt-1.pptx
 
The Universe; What's Beyond?
The Universe; What's Beyond?The Universe; What's Beyond?
The Universe; What's Beyond?
 
Terrestrial &; Jovian Planets
Terrestrial &; Jovian PlanetsTerrestrial &; Jovian Planets
Terrestrial &; Jovian Planets
 
b) Explain how the three debris fields (i-e-- Main Asteroid Belt- Kuip.docx
b) Explain how the three debris fields (i-e-- Main Asteroid Belt- Kuip.docxb) Explain how the three debris fields (i-e-- Main Asteroid Belt- Kuip.docx
b) Explain how the three debris fields (i-e-- Main Asteroid Belt- Kuip.docx
 
8th Grade Chapter 1 Lesson 8
8th Grade Chapter 1 Lesson 88th Grade Chapter 1 Lesson 8
8th Grade Chapter 1 Lesson 8
 
Solar system and it's Contents
Solar system and it's ContentsSolar system and it's Contents
Solar system and it's Contents
 
Solar System Facts Powerpoint
Solar System Facts PowerpointSolar System Facts Powerpoint
Solar System Facts Powerpoint
 
.Physics presentation - Asteroids
.Physics presentation - Asteroids.Physics presentation - Asteroids
.Physics presentation - Asteroids
 
ASTEROIDS AND METEORITES
ASTEROIDS AND METEORITESASTEROIDS AND METEORITES
ASTEROIDS AND METEORITES
 

Último

Strategize a Smooth Tenant-to-tenant Migration and Copilot Takeoff
Strategize a Smooth Tenant-to-tenant Migration and Copilot TakeoffStrategize a Smooth Tenant-to-tenant Migration and Copilot Takeoff
Strategize a Smooth Tenant-to-tenant Migration and Copilot Takeoff
sammart93
 
Architecting Cloud Native Applications
Architecting Cloud Native ApplicationsArchitecting Cloud Native Applications
Architecting Cloud Native Applications
WSO2
 
Ransomware_Q4_2023. The report. [EN].pdf
Ransomware_Q4_2023. The report. [EN].pdfRansomware_Q4_2023. The report. [EN].pdf
Ransomware_Q4_2023. The report. [EN].pdf
Overkill Security
 
Cloud Frontiers: A Deep Dive into Serverless Spatial Data and FME
Cloud Frontiers: A Deep Dive into Serverless Spatial Data and FMECloud Frontiers: A Deep Dive into Serverless Spatial Data and FME
Cloud Frontiers: A Deep Dive into Serverless Spatial Data and FME
Safe Software
 
Modular Monolith - a Practical Alternative to Microservices @ Devoxx UK 2024
Modular Monolith - a Practical Alternative to Microservices @ Devoxx UK 2024Modular Monolith - a Practical Alternative to Microservices @ Devoxx UK 2024
Modular Monolith - a Practical Alternative to Microservices @ Devoxx UK 2024
Victor Rentea
 

Último (20)

Apidays New York 2024 - Scaling API-first by Ian Reasor and Radu Cotescu, Adobe
Apidays New York 2024 - Scaling API-first by Ian Reasor and Radu Cotescu, AdobeApidays New York 2024 - Scaling API-first by Ian Reasor and Radu Cotescu, Adobe
Apidays New York 2024 - Scaling API-first by Ian Reasor and Radu Cotescu, Adobe
 
Apidays New York 2024 - Passkeys: Developing APIs to enable passwordless auth...
Apidays New York 2024 - Passkeys: Developing APIs to enable passwordless auth...Apidays New York 2024 - Passkeys: Developing APIs to enable passwordless auth...
Apidays New York 2024 - Passkeys: Developing APIs to enable passwordless auth...
 
Corporate and higher education May webinar.pptx
Corporate and higher education May webinar.pptxCorporate and higher education May webinar.pptx
Corporate and higher education May webinar.pptx
 
Emergent Methods: Multi-lingual narrative tracking in the news - real-time ex...
Emergent Methods: Multi-lingual narrative tracking in the news - real-time ex...Emergent Methods: Multi-lingual narrative tracking in the news - real-time ex...
Emergent Methods: Multi-lingual narrative tracking in the news - real-time ex...
 
Artificial Intelligence Chap.5 : Uncertainty
Artificial Intelligence Chap.5 : UncertaintyArtificial Intelligence Chap.5 : Uncertainty
Artificial Intelligence Chap.5 : Uncertainty
 
Boost Fertility New Invention Ups Success Rates.pdf
Boost Fertility New Invention Ups Success Rates.pdfBoost Fertility New Invention Ups Success Rates.pdf
Boost Fertility New Invention Ups Success Rates.pdf
 
Exploring Multimodal Embeddings with Milvus
Exploring Multimodal Embeddings with MilvusExploring Multimodal Embeddings with Milvus
Exploring Multimodal Embeddings with Milvus
 
Spring Boot vs Quarkus the ultimate battle - DevoxxUK
Spring Boot vs Quarkus the ultimate battle - DevoxxUKSpring Boot vs Quarkus the ultimate battle - DevoxxUK
Spring Boot vs Quarkus the ultimate battle - DevoxxUK
 
Strategize a Smooth Tenant-to-tenant Migration and Copilot Takeoff
Strategize a Smooth Tenant-to-tenant Migration and Copilot TakeoffStrategize a Smooth Tenant-to-tenant Migration and Copilot Takeoff
Strategize a Smooth Tenant-to-tenant Migration and Copilot Takeoff
 
Architecting Cloud Native Applications
Architecting Cloud Native ApplicationsArchitecting Cloud Native Applications
Architecting Cloud Native Applications
 
ProductAnonymous-April2024-WinProductDiscovery-MelissaKlemke
ProductAnonymous-April2024-WinProductDiscovery-MelissaKlemkeProductAnonymous-April2024-WinProductDiscovery-MelissaKlemke
ProductAnonymous-April2024-WinProductDiscovery-MelissaKlemke
 
Ransomware_Q4_2023. The report. [EN].pdf
Ransomware_Q4_2023. The report. [EN].pdfRansomware_Q4_2023. The report. [EN].pdf
Ransomware_Q4_2023. The report. [EN].pdf
 
Apidays New York 2024 - The value of a flexible API Management solution for O...
Apidays New York 2024 - The value of a flexible API Management solution for O...Apidays New York 2024 - The value of a flexible API Management solution for O...
Apidays New York 2024 - The value of a flexible API Management solution for O...
 
Polkadot JAM Slides - Token2049 - By Dr. Gavin Wood
Polkadot JAM Slides - Token2049 - By Dr. Gavin WoodPolkadot JAM Slides - Token2049 - By Dr. Gavin Wood
Polkadot JAM Slides - Token2049 - By Dr. Gavin Wood
 
Exploring the Future Potential of AI-Enabled Smartphone Processors
Exploring the Future Potential of AI-Enabled Smartphone ProcessorsExploring the Future Potential of AI-Enabled Smartphone Processors
Exploring the Future Potential of AI-Enabled Smartphone Processors
 
DBX First Quarter 2024 Investor Presentation
DBX First Quarter 2024 Investor PresentationDBX First Quarter 2024 Investor Presentation
DBX First Quarter 2024 Investor Presentation
 
Manulife - Insurer Transformation Award 2024
Manulife - Insurer Transformation Award 2024Manulife - Insurer Transformation Award 2024
Manulife - Insurer Transformation Award 2024
 
Cloud Frontiers: A Deep Dive into Serverless Spatial Data and FME
Cloud Frontiers: A Deep Dive into Serverless Spatial Data and FMECloud Frontiers: A Deep Dive into Serverless Spatial Data and FME
Cloud Frontiers: A Deep Dive into Serverless Spatial Data and FME
 
How to Troubleshoot Apps for the Modern Connected Worker
How to Troubleshoot Apps for the Modern Connected WorkerHow to Troubleshoot Apps for the Modern Connected Worker
How to Troubleshoot Apps for the Modern Connected Worker
 
Modular Monolith - a Practical Alternative to Microservices @ Devoxx UK 2024
Modular Monolith - a Practical Alternative to Microservices @ Devoxx UK 2024Modular Monolith - a Practical Alternative to Microservices @ Devoxx UK 2024
Modular Monolith - a Practical Alternative to Microservices @ Devoxx UK 2024
 

Comets

  • 1. Comets A comet is a celestial body that revolves around the sun. Comets have a long tail. Early comets were described as a phonomenon. The Danish astronomer, Tycho Brahe, proved that comets were celestial bodies. A comet is made of a sharp nucleus, or center. It is also described as a "dirty snowball" because of the ice and dust on the comet. When a comet comes toward the sun, the solar heat evaporates so that the ice on the comet brightens. When this happens, the comet has a tail that might sometimes lenghten to a point of being many millions of kilometers in space. The tail of the comet is usually turned away from the sun. Comets also have elliptical orbits. Sometimes comets travel in a group that has nearly the same orbit. They are said to be members of a comet group. The most famous group is Ikeya-Seki of 1956. Comets have been known to be important events. The presence of a comet has also given fear of a collision between the comet and the earth. The earth has passed through the tails of comets without much effect. Although a collision of a comet with a city would destroy the city, it will probably never occur again. Asteroids Asteroids are one of the many minor planets of the solar system. The largest asteroids are Ceres, Pallas, and Vesta. The mass of an asteroid of is much less than the mass of the Moon. Few scientists now believe that asteroids are the remains of a former planet. They think that asteroids have a place in the solar system where a planet could've formed, but the gravity of Jupiter prevented it from happening. Some unusual asteroids are made of iron-nickel alloy. Asteroids, like meteorites, can be classified into specific types. Most asteroids are related to the meteorites known as "irons". A few asteroids, such as Vesta, are probably related to the rarest meteorite class of all. It is the achondrites. These asteroids look like it has the surface composition of many lunar and terrestrial lava flows.
  • 2. Meteors A meteor is a solid body that enters a planet's atmosphere from space. Brilliant meteors, consists of a radiant head and then it is followed by a tail of light, like a comet. Other meteors, called bolides, have been seen to explode. When bolides explode, they sound like thunder. Fainter meteors, called shooting stars, occur occasionally. At some times, hundreds of meteors can occur at once. These swarms are called meteor showers. Some appear annually on the same days of the year. They are called periodic showers. Others occur at different times each year. A meteor that reaches the surface of the earth or another planet is called a meteorite. A meteoroid is a solid body orbiting the sun. It will become a meteor if it enters earth's atmosphere. The majority of meteoroids are the size of grains of dust, but they can be larger without any limit.
  • 3. Asteroids ASTEROIDS Asteroids are rocky or metallic objects, most of which orbit the Sun in the asteroid belt between Mars and Jupiter. A few asteroids approach the Sun more closely. None of the asteroids have atmospheres. Asteroids are also known as planetoids or minor planets. Asteroid 253 Mathilde, a Near- Earth Asteroid photographed by NASA's NEAR (Near Earth Asteroid Rendezvous) mission in June 1997. Mathilde is about 60 km in diameter and orbits in the asteroid belt between Mars and Jupiter. THE ASTEROID BELT The asteroid belt is a doughnut-shaped concentration of asteroids orbiting the Sun between the orbits of Mars and Jupiter, closer to the orbit of Mars. Most asteroids orbit from between 186 million to 370 million miles (300 million to 600 million km or 2 to 4 AU) from the Sun. The asteroids in the asteroid belt have a slightly elliptical orbit. The time for one revolution around the Sun varies from about three to six Earth years. The strong gravitational force of the planet Jupiter shepherds the asteroid belt, pulling the asteroids away from the Sun, keeping them from careening into the inner planets. THE KIRKWOOD GAPS The asteroid belt is not smooth; there are concentric gaps in it (known as Kirkwood gaps). These gaps are orbital radii where the gravitational forces from Jupiter do not let asteroids orbit (they would be pulled towards Jupiter). For example, an orbit in which an asteroid orbited the Sun exactly three times for each Jovian orbit would experience great gravitational forces each orbit, and would soon be pulled out of that orbit. There is a gap at 3.28 AU (which corresponds to 1/2 of Jupiter's period), another at 2.50 AU (which corresponds to 1/3 of Jupiter's period), etc. The Kirkwood gaps are named for Daniel Kirkwood who discovered them in 1866.
  • 4. HOW MANY ASTEROIDS ARE THERE? There are about 40,000 known asteroids that are over 0.5 miles (1 km) in diameter in the asteroid belt. About 3,000 asteroids have been cataloged. There are many more smaller asteroids. The first one discovered (and the biggest) is named Ceres; it was discovered in 1801. Gaspra, Asteroid #951. THE SIZES OF ASTEROIDS Asteroids range in size from tiny pebbles to about 578 miles (930 kilometers) in diameter (Ceres). Sixteen of the 3,000 known asteroids are over 150 miles (240 km) in diameter. Some asteroids even have orbiting moons. Asteroid 4 Vesta, the brightest asteroid and the fourth largest. Vesta is the only asteroid that can be seen without a telescope (it is sixth magnitude). CERES: THE LARGEST ASTEROID Ceres is the largest of the asteroids. It was the first asteroid ever discovered (by the Italian astronomer Giuseppe Piazzi on January 1, 1801). Ceres is the size of the state of Texas! It is so huge in comparison with the other asteroids that its mass is equal to over one-third of the 2.3 x 1021 kg estimated total mass of all the 3,000 cataloged asteroids. Ceres is about 578 miles (930 kilometers) in diameter. Ceres is now considered to be a dwarf planet. ASTEROIDS BECOMING MOONS Asteroids can be pulled out of their solar orbit by the gravitational pull of a planet. They would then orbit that planet instead of orbiting the Sun. Astronomers theorize that the two moons of Mars, Phobos and Deimos, are captured asteroids. The asteroid 243 Ida and its tiny asteroid moon, Dactyl. This is the first asteroid ever found with an orbiting moon. Ida's dimensions are about 56 x 24 x 21 kilometers (35 x 15 x 13 miles). Dactyl is only about 1.2 x 1.4 x 1.6 km (0.75 x 0.87 x 1 mile) across.
  • 5. ORIGIN OF THE ASTEROID BELT The asteroid belt may be material that never coalesced into a planet, perhaps because its mass was too small; the total mass of all the asteroids is only a small fraction of that of our Moon. The total mass of all the asteroids is about 2.3 x 1021 kg ); our moon's mass is 7.35 x 1022 kg; the asteroids' mass combined is about 1/30 of the mass of the Moon. A less satisfactory explanation of the origin of the asteroid belt is that it may have once been a planet that was fragmented by a collision with a huge comet. TROJAN ASTEROIDS Trojan asteroids are asteroids that orbit in gravitationally stable Lagrange points in a planet's orbit, either trailing it or preceding it (these places are where the gravitational attraction of the Sun and of the planet balance each other). Jupiter has the most Trojan asteroids; Mars also has some. Achilles was the first Trojan asteroid found. The asteroids preceding Jupiter in its orbit were named for Greek heroes; those following Jupiter in its orbit were named for Trojan heroes. Introduction to Comets A comet is a small, icy celestial body that orbits around the sun. It is made up of a nucleus (solid, frozen ice, gas and dust), a gaseous coma (water vapor, CO2, and other gases) and a long tail (made of dust and ionized gases). The tail develops when the comet is near the Sun. Its long ion tail of always points away from the sun, because of the force of the solar wind. The tail can be up to 250 million km long, and is most of what we see. Comets are only visible when they're near the sun in their highly eccentric orbits. PARTS OF A COMET Nucleus: The nucleus is the frozen center of a comet's head. It is composed of ice, gas, and dust. The nucleus contains most of the comet's mass but is very small (about 1 to 10 km across - or more). Coma: The coma is the roughly spherical blob of gas that surrounds the nucleus of a comet; it is about a million km across. The coma is comprised of water vapor, carbon dioxide gas, ammonia, dust, and neutral gases that have sublimed from the solid nucleus. The coma and the nucleus form the head of a comet. Ion Tail: A tail of charged gases (ions) always faces away from the sun because the solar wind (ions streaming from the sun at high velocities) pushes it away (it is also called the plasma tail). When the comet is approaching the Sun, the ion tail trails the comet: when the comet is leaving of the Sun, the ion
  • 6. tail leads. The tail fades as the comet moves far from the Sun. The ion tail can be well over 100 million km long. Dust Tail: The dust tail is a long, wide tailcomposed of microscopic dust particles that are buffeted by photons emitted from the Sun; this tail curves slightly due to the comet's motion. The tail fades as the comet moves far from the Sun. Hydrogen Envelope: Hydrogen gas surrounds the coma of the comet and trails along for millions of miles (it is usually between the ion tail and the dust tail). The hydrogen envelope is about 10 million km across at the nucleus of the comet and about 100 million km long. It is bigger when the comet is near the Sun. A COMET'S ORBIT Comets orbit the Sun in highly elliptical orbits. Their velocity increases greatly when they are near the Sun and slows down at the far reaches of the orbit. Since the comet is light only when it is near the Sun (and is it vaporizing), comets are dark (virtually invisible) throughout most of their orbit. The solar wind pushes the tail away from the Sun. Some comets crash into the Sun or get so close that they burn up; these comets are called sungrazers. COMET EXPLORATION NASA's Stardust Mission will visit the Comet Wild 2 in 2004. It will take a sample of comet particles and return them to Earth. The small spacecraft (about 770 pounds = 350 kg) was launched February 7, 1999 and rendezvoused with comet Wild 2 in January, 2004. It will return to Earth on January 15, 2006, and land in western Utah, USA. Comet Wild 2 (aka Comet 81P) is a short- period comet that was discovered by the Swiss astronomer Paul Wild on January 6, 1978. The comet's nucleus is about 3 miles (5 km) across. Wild 2 orbits the Sun every 6.39 years; its elliptical orbit ranges from about Mars' orbit to Jupiter's orbit. COSMIC SNOWBALLS There is a new and very controversial theory that comets (composed of frozen water) are constantly bombarding the Earth. These "cosmic snowballs" have (perhaps) been seen by the visible imaging system of the Polar Satellite. In theory, these frozen comets vaporize in the atmosphere, adding water vapor to the environment.
  • 7. METEOROIDS Meteoroids are small bodies that travel through space. Meteoroids are smaller than asteroids; most are smaller than the size of a pebble. Meteoroids have many sources. Most meteoroids come from asteroids that are broken apart by impacts with other asteroids. Other meteoroids come from the Moon, from comets, and from the planet Mars. METEORS A meteor is a meteoroid that has entered the Earth's atmosphere, usually making a fiery trail as it falls. It is sometimes called a shooting star or a falling star. Just before a meteor enter's the Earth's atmosphere, it is moving at roughly 70 kilometers per second. The friction between the fast-moving meteor and the gas in the Earth's atmosphere causes intense heat; the meteor glows with heat and then burns. Most meteors burn up before hitting the Earth. Only large meteors can survive the trip through our atmosphere. A fireball is any meteor that is brighter than Venus (magnitude -4). A meteor shower is a phenomenon in which many meteors fall through the atmosphere in a relatively short time and in approximately parallel trajectories. A very intense meteor shower is called a meteor storm. METEORITES A meteorite is a meteor that has fallen to Earth. These rare objects have survived a fiery fall through the Earth's atmosphere and have lost a lot of mass during that process. Meteorites are made up of rock and/or metals Sources: http://www.enchantedlearning.com/subjects/astronomy/asteroids/index.shtml http://library.thinkquest.org/J001665/cam.html#