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The motion of the Moon would change if the mass of Earth increased, because the Earth's gravity would increase.
The change in the gravitational force between Earth and Moon would affect the orbital path of the Moon.
More details, if wanted:
The Moon would be pulled towards the Earth.
It's possible that the Moon would collide with Earth, depending on the strength of the Earth's new gravity.
The other possibility is that the Moon would simply go into a new, more elliptical, orbital path.
The Moon's speed would be greater than before at its closest approach to Earth. Its orbital speed at its furthest point would be similar to its original speed.
I think that's right. I've checked my answer with a website, but I haven't seen any mathematics on the problem.
What else can I help you with?
What of the changes below would increase the force of Earth's gravity on an object?
The only way to change anythings gravity is to change its' mass. (apex) Increase the mass of the object Decrease the distance of the object from Earth
What two ways life would be different if earth did not have motion of revolution?
There would be no change in season on Earth at a particular place The poles will get colder & the tropical regions will get more hotter
How would you present weight change if earth had twice the mass it does now?
If Earth had twice its current mass, the gravitational force would increase, and objects would weigh twice as much as they do now. This means that a person weighing 150 pounds on Earth would weigh 300 pounds on the hypothetical Earth with double the mass. The weight change would be a direct result of the increase in gravitational pull due to the added mass.
What would happen if the world is covered by c02?
An increase in the average temperature of the earth's atmosphere, especially a sustained increase sufficient to cause climatic change.
What are two ways life would be different if earth did not have motion of revolution?
If Earth did not have a motion of revolution around the sun, the seasons as we know them would not exist, leading to a more stable climate globally. Additionally, without this motion, there would be no concept of a year as we measure it, impacting how we structure our calendars and understand time.
How would the compositions of air change if there is a large increase in the air burning fuel?
There will be an accelerated greenhouse effect on the earth.
Why would the motion of the moon change if the mass of earth increased?
The motion of the Moon would change if the mass of Earth increased, because the Earth's gravity would increase. The change in the gravitational force between Earth and Moon would affect the orbital path of the Moon. More details, if wanted: The Moon would be pulled towards the Earth. It's possible that the Moon would collide with Earth, depending on the strength of the Earth's new gravity. The other possibility is that the Moon would simply go into a new, more elliptical, orbital path. The Moon's speed would be greater than before at its closest approach to Earth. Its orbital speed at its furthest point would be similar to its original speed. I think that's right. I've checked my answer with a website, but I haven't seen any mathematics on the problem.
What term in physical science is define as a change in position?
A change in position would be motion. (Motion) is the answer for A+
What term in physical science is defined as a change in positions?
A change in position would be motion. (Motion) is the answer for A+
What terms in physical science is defined as a change in position?
A change in position would be motion. (Motion) is the answer for A+
What increase as the average energy of the motion of the particles of matter increase?
The temperature of the substance would increase as the average energy of particle motion increases. Additionally, the pressure exerted by the particles on the walls of the container would also increase.
Most affected by a change in the moon's mass is what?
Ocean tides would be most affected by a change in the moon's mass. A larger moon mass would increase the gravitational pull on the Earth, causing stronger and higher tides.
