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So we substitute equation [link] into Equation [link] , and we find that
Since it doesn't matter what is, this tells us that the acceleration on a body (due to the Earth's gravity) does not depend on the mass of the body. Thus all objects experience the same gravitational acceleration. The force on different bodies will be different but the acceleration will be the same. Due to the fact that this acceleration caused by gravity is the same on all objects we label it differently, instead of using we use which we call the gravitational acceleration.
Comparative problems involve calculation of something in terms of something else that we know. For example, if you weigh 490 N on Earth and the gravitational acceleration on Venus is 0,903 that of the gravitational acceleration on the Earth, then you would weigh 0,903 x 490 N = 442,5 N on Venus.
A man has a mass of 70 kg. The planet Zirgon is the same size as the Earth but has twice the mass of the Earth. What would the man weigh on Zirgon, if the gravitational acceleration on Earth is 9,8 m s ?
The following has been provided:
We are required to determine the man's weight on Zirgon ( ). We can do this by using:
to calculate the weight of the man on Earth and then use this value to determine the weight of the man on Zirgon.
Write the equation for the gravitational force on Zirgon and then substitute the values for and , in terms of the values for the Earth.
The man weighs 1 372 N on Zirgon.
A man has a mass of 70 kg. On the planet Beeble how much will he weigh if Beeble has mass half of that of the Earth and a radius one quarter that of the Earth. Gravitational acceleration on Earth is 9,8 m s .
The following has been provided:
We are required to determine the man's weight on Beeble ( ). We can do this by using:
to calculate the weight of the man on Earth and then use this value to determine the weight of the man on Beeble.
Write the equation for the gravitational force on Beeble and then substitute the values for and , in terms of the values for the Earth.
The man weighs 5 488 N on Beeble.
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