Their velocity. For example, Earth goes around the Sun with about 30 km. / second. If Earth would suddenly stand still (no reason why this should happen; this is hypothetical), it would fall directly towards the Sun. As it is, Earth moves at 30 km./sec., approximately at right angles with the Sun. The Sun's gravity changes this direction - but it is not strong enough to pull Earth completely towards the Sun.
Their velocity. For example, Earth goes around the Sun with about 30 km. / second. If Earth would suddenly stand still (no reason why this should happen; this is hypothetical), it would fall directly towards the Sun. As it is, Earth moves at 30 km./sec., approximately at right angles with the Sun. The Sun's gravity changes this direction - but it is not strong enough to pull Earth completely towards the Sun.
Their velocity. For example, Earth goes around the Sun with about 30 km. / second. If Earth would suddenly stand still (no reason why this should happen; this is hypothetical), it would fall directly towards the Sun. As it is, Earth moves at 30 km./sec., approximately at right angles with the Sun. The Sun's gravity changes this direction - but it is not strong enough to pull Earth completely towards the Sun.
Their velocity. For example, Earth goes around the Sun with about 30 km. / second. If Earth would suddenly stand still (no reason why this should happen; this is hypothetical), it would fall directly towards the Sun. As it is, Earth moves at 30 km./sec., approximately at right angles with the Sun. The Sun's gravity changes this direction - but it is not strong enough to pull Earth completely towards the Sun.
The farther away from the sun you travel, the colder it will get. The closer you are, the hotter it is. The sun is an important and vital source of heat for life, so the farther away you go, the weaker its rays get, and the temperature drops. That is why planets like Neptune and dwarf planet Pluto are so cold and icy.
Their velocity decreases. An imaginary line between the sun and a planet or other orbiting mass always sweeps out the same area in a certain amount of time no matter how near or far the mass is from the sun. To do that, it must be traveling much faster when it is close to the sun. That is why animations of comet orbits always show the comet whipping around the sun then moving relatively slowly when it's far away.
Also, the amount of solar energy reaching a planet is inversely proportional to the square of the planet's distance from the sun. Therefore, if the distance between the sun and a planet is tripled, the amount of solar energy reaching the planet is divided by nine.
Their velocity. For example, Earth goes around the Sun with about 30 km. / second. If Earth would suddenly stand still (no reason why this should happen; this is hypothetical), it would fall directly towards the Sun. As it is, Earth moves at 30 km./sec., approximately at right angles with the Sun. The Sun's gravity changes this direction - but it is not strong enough to pull Earth completely towards the Sun.
Planets revolve around the sun due to two forces acting against each other. Gravity pulls the planets towards the sun, while their momentum, the movement through space, pulls them away.
They get colder and darker, with less light.
beacause of the heat of the sun and it will kill the planet
Planets move away from the Sun during half of their orbit; then they move towards the Sun on the other half of their orbit. I don't think there is a special name for either of these halves.
It cools down
Take for example, there is a fire. The closer you stand to the fire, the warmer it is. The further you stand away from the fire, the colder it is. This is the same for the temperature on planets and distance from the sun. But that doesn't apply to the planet Venus. Although Venus is the SECOND closest to the sun, it's the hottest because the hot air is trapped in its dense atmosphere. It's kind of like a greenhouse on Venus.
There are many planets further away from Pluto but they do not orbit the sun so they are not part of our solar system. There are also many stars that are further away from Pluto.
The further a planet is from the sun, the less light and heat radiation it gets from the sun leaving it a cooler planet. However, a planet with a gaseous atmosphere is less likely to radiate away the planets heat so it may retain more of the solar heat.
venus since it is far away from sun though pluto is also far away now-a-days we are not considering it as planet.
No. The surface gravity of a planet is a product of its size and mass. It has nothing to do with distance from the sun. However, a planet farther away from the sun will experience a weaker pull from the sun's gravity.
The further away a planet is from the sun the colder it is, the closer a planet is the hotter the planet is.
the further away you are from the sun the colder the place is.
The temperature of a planet varies with the distance from the sun because the sun is hot and the closer something is to the sun, the hotter the object gets. The further away the planet from the sun, the colder the planet.
The temperature of a planet varies with the distance from the sun because the sun is hot and the closer something is to the sun, the hotter the object gets. The further away the planet from the sun, the colder the planet.
The temperature of a planet varies with the distance from the sun because the sun is hot and the closer something is to the sun, the hotter the object gets. The further away the planet from the sun, the colder the planet.
The temperature of a planet varies with the distance from the sun because the sun is hot and the closer something is to the sun, the hotter the object gets. The further away the planet from the sun, the colder the planet.
The temperature of a planet depends on several factors, including its distance from the sun. As you move further away from the sun, less sunlight reaches the planet, causing it to receive less heat and become colder. Additionally, the atmosphere and composition of each planet also play a role in determining its temperature.
The planet that does not get colder when further away from the sun is Venus as it rotates backwards.
The colser you are to the sun the more hotter you will be. The more fether away you are the coolder so that is why neptune is the coolest planet because it is fether away from the sun unlike mecery wich is the hottest because the clostest planet to the sun.
when the sun is further away the colder it is make sense
it gets colder because there is less warmth from the sun
Because it is further away from the sun