Solar System Overview Solar System Overview Planets
... (a) is in orbit around the Sun, (b) has sufficient mass for its self-gravity to assume a nearly round shape, (c) has not cleared the neighbourhood around its orbit. (3) All other objects, except satellites, orbiting the Sun shall be referred to collectively as "Small Solar System Bodies". The IAU fu ...
... (a) is in orbit around the Sun, (b) has sufficient mass for its self-gravity to assume a nearly round shape, (c) has not cleared the neighbourhood around its orbit. (3) All other objects, except satellites, orbiting the Sun shall be referred to collectively as "Small Solar System Bodies". The IAU fu ...
Space - mrhandley.co.uk
... • In Roman mythology Neptune was the god of the Sea. He is known as Poseidon in Greek mythology. The planet was probably named after the sea gods because of its deep blue colour. Neptune also has rings. The Voyager 2 spacecraft showed scientists that Neptune indeed has complete rings with bright clu ...
... • In Roman mythology Neptune was the god of the Sea. He is known as Poseidon in Greek mythology. The planet was probably named after the sea gods because of its deep blue colour. Neptune also has rings. The Voyager 2 spacecraft showed scientists that Neptune indeed has complete rings with bright clu ...
Solar System Test - Arizona Science Olympiad
... 37. What planet or moon in our solar system has a vast surface coating of ice? 38. What planet does the moon Triton orbit? 39. Name two features of the Sun that can cause interference in satellites in the Earth’s atmosphere. ...
... 37. What planet or moon in our solar system has a vast surface coating of ice? 38. What planet does the moon Triton orbit? 39. Name two features of the Sun that can cause interference in satellites in the Earth’s atmosphere. ...
Solar System Unit Objectives
... State why Pluto has been reclassified as a “dwarf planet” Give the force law for gravity and use it to calculate the force of gravity for a given two body system State the cause of the tides on the earth and what their long term effect is on the earth-moon orbit Give the period for solar and lunar e ...
... State why Pluto has been reclassified as a “dwarf planet” Give the force law for gravity and use it to calculate the force of gravity for a given two body system State the cause of the tides on the earth and what their long term effect is on the earth-moon orbit Give the period for solar and lunar e ...
File
... Has Rings that are made up of frozen gas, ice, and rock Second Largest Planet 18 Moons Yellow in Color ...
... Has Rings that are made up of frozen gas, ice, and rock Second Largest Planet 18 Moons Yellow in Color ...
Trans Neptunian Objects (TNOs)
... There are many icy/rock objects (planetesimals) in the Kuiper Belt and an area called the Scattered Disc. If one of these has an orbit that crosses inside the orbit of Neptune, the object becomes classified as a Trans Neptunian Object (TNO). Pluto is the biggest TNO. Some of the Kuiper Belt Objects ...
... There are many icy/rock objects (planetesimals) in the Kuiper Belt and an area called the Scattered Disc. If one of these has an orbit that crosses inside the orbit of Neptune, the object becomes classified as a Trans Neptunian Object (TNO). Pluto is the biggest TNO. Some of the Kuiper Belt Objects ...
Chapter 23 Vocabulary
... 4. Jupiter- in our solar system, the fifth planet from the sun; largest planet, mostly gas and liquid 5. comet- moss of frozen gasses and rock particles that orbits the sun, often developing a bright tail when it passes near the sun 6. Oort Cloud- cloud of comets surrounding the solar system outside ...
... 4. Jupiter- in our solar system, the fifth planet from the sun; largest planet, mostly gas and liquid 5. comet- moss of frozen gasses and rock particles that orbits the sun, often developing a bright tail when it passes near the sun 6. Oort Cloud- cloud of comets surrounding the solar system outside ...
21. Solar System Formation
... spiral waves — this process robs the planet of angular momentum, causing it to spiral inward. ...
... spiral waves — this process robs the planet of angular momentum, causing it to spiral inward. ...
Solar System Test objectives
... Identify common characteristics of terrestrial planets and which planets are in this category Identify common characteristics of Jovian planets and which planets are in this category List a few characteristics that are unique to each planet. Explain several reasons why Pluto can be argued that it is ...
... Identify common characteristics of terrestrial planets and which planets are in this category Identify common characteristics of Jovian planets and which planets are in this category List a few characteristics that are unique to each planet. Explain several reasons why Pluto can be argued that it is ...
Name
... How long would a day be (in minutes) if the Earth were rotating so fast that objects at the equator were apparently weightless? (Hint: Normal force would be zero) ...
... How long would a day be (in minutes) if the Earth were rotating so fast that objects at the equator were apparently weightless? (Hint: Normal force would be zero) ...
the workSHeet
... What to do For each planet (and the Sun) we'll give you an object to represent it, the planet's actual diameter and the scaled diameter (so you can take your ruler in search of perfect planets). First find something to represent the Sun. The Sun ...
... What to do For each planet (and the Sun) we'll give you an object to represent it, the planet's actual diameter and the scaled diameter (so you can take your ruler in search of perfect planets). First find something to represent the Sun. The Sun ...
For Immediate Release Caltech Researchers Find Evidence of a
... of having that happen are something like 1 in 100, he says. But on top of that, the orbits of the six objects are also all tilted in the same way—pointing about 30 degrees downward in the same direction relative to the plane of the eight known planets. The probability of that happening is about 0.0 ...
... of having that happen are something like 1 in 100, he says. But on top of that, the orbits of the six objects are also all tilted in the same way—pointing about 30 degrees downward in the same direction relative to the plane of the eight known planets. The probability of that happening is about 0.0 ...
About the Solar System
... What did you learn about the planets? Tell me about the Sun. Which planet is the Red Planet? Which planet is the largest? Which planet is the smallest? Which planet is the hottest? ...
... What did you learn about the planets? Tell me about the Sun. Which planet is the Red Planet? Which planet is the largest? Which planet is the smallest? Which planet is the hottest? ...
Kepler`s Laws of Planetary Motion
... 4. As with Newton’s laws, which still work to describe motion, Kepler’s Laws are useful in the present. The third Law, for example, can be used to determine the relative distance of any body in the solar system. THE LAWS: First law: Planets move at elliptical orbits, with the sun at one focus. An el ...
... 4. As with Newton’s laws, which still work to describe motion, Kepler’s Laws are useful in the present. The third Law, for example, can be used to determine the relative distance of any body in the solar system. THE LAWS: First law: Planets move at elliptical orbits, with the sun at one focus. An el ...
Our Solar System
... that is more than 400 years old • Pressure is so great it would crush a spaceship. • Orbit Period 12 years • 9 hours and 54 min=1 Jupiter day (shortest day) ...
... that is more than 400 years old • Pressure is so great it would crush a spaceship. • Orbit Period 12 years • 9 hours and 54 min=1 Jupiter day (shortest day) ...
- Glasgow Science Centre
... This short activity is intended to help gauge existing knowledge about the eight planets in the solar system. Learning Objectives ...
... This short activity is intended to help gauge existing knowledge about the eight planets in the solar system. Learning Objectives ...
The Planet Walk Brochure - Take it on the walk for fun on the go
... that each step you take is equal to the distance light travels in one second (300,000 km or 186,000 miles). Just as it takes eight minutes for light to reach Earth from the Sun, it should take eight minutes for a Planet Walker to reach the model Earth from the model Sun. In essence, you become a lig ...
... that each step you take is equal to the distance light travels in one second (300,000 km or 186,000 miles). Just as it takes eight minutes for light to reach Earth from the Sun, it should take eight minutes for a Planet Walker to reach the model Earth from the model Sun. In essence, you become a lig ...
Planet, Dwarf Planet, or neither?
... Tends to be an outlier- rocky planet but far from the sun, unusual composition Very small in comparison, only 5% of the mass of Mercury Eccentric, highly inclined orbit that crosses Neptune’s path Five known moons, has a thin atmosphere ...
... Tends to be an outlier- rocky planet but far from the sun, unusual composition Very small in comparison, only 5% of the mass of Mercury Eccentric, highly inclined orbit that crosses Neptune’s path Five known moons, has a thin atmosphere ...
Power Point
... • The sun is a star with nine planets orbiting around it. • This family of planets is called the solar system. • The planets all travel around the sun in the same direction, and are held in orbit by the gravitational pull of the sun. • The orbits of the planets are slightly elliptical in shape. • Th ...
... • The sun is a star with nine planets orbiting around it. • This family of planets is called the solar system. • The planets all travel around the sun in the same direction, and are held in orbit by the gravitational pull of the sun. • The orbits of the planets are slightly elliptical in shape. • Th ...
Planet Matchup - Digital Task Card 1
... 9. This is another gas giant, and the 8th planet from the sun. 10. This second-largest planet is so light that if there were a bathtub big enough, it would float in water. Copyright © 2011 Savetz Publishing Inc. • www.InstantWorksheets.net ...
... 9. This is another gas giant, and the 8th planet from the sun. 10. This second-largest planet is so light that if there were a bathtub big enough, it would float in water. Copyright © 2011 Savetz Publishing Inc. • www.InstantWorksheets.net ...
How fast do the Planets move?
... What is the order of the planets, from closest to the sun to furthest away? ...
... What is the order of the planets, from closest to the sun to furthest away? ...
Document
... the Gas Giants. Large – 88,000 miles to 30,000 miles. Short days – 10 hours to 17 hours. ...
... the Gas Giants. Large – 88,000 miles to 30,000 miles. Short days – 10 hours to 17 hours. ...
Slide 1
... 1. Ancient view: Earth is the center of the solar system. This is called the geocentric model. The Sun and other planets revolve around Earth in circles. Sun ...
... 1. Ancient view: Earth is the center of the solar system. This is called the geocentric model. The Sun and other planets revolve around Earth in circles. Sun ...
Warm-Up
... • When a comet travels in orbit close to sun (near Jupiter), it heats & solar wind forms a Coma (tail-gas & dust). ...
... • When a comet travels in orbit close to sun (near Jupiter), it heats & solar wind forms a Coma (tail-gas & dust). ...