@@jacobvandijk6525 In other Words the Suns Gravity is a Weak Force Upon the Earth and Moon. It is Also the Vacuum of Space that Allows the Suns Gravity to Move such Large Objects as Planets etc.
@@chrisgriffiths2533 Use F = G . M . m / r^2, with m = mass moon. First use M = mass sun and r = distance sun/moon, then use M = mass earth and r = earth/moon.
@@jacobvandijk6525 Do Gravity's Add and Subtract from One Another. For Example :- When the Moon is between the Earth and Sun. Does the Earth Experience the Suns Gravity Plus the Moons Gravity. Or When the Earth is between the Moon and the Sun. Does the Earth Experience the Suns Gravity Minus the Moons Gravity
Why is he in Mr bean outfit lol
It's been a while since you have uploaded, welcome
Hi
Yet the Suns Gravitational Force at Earth is Not Strong enough to Pull the Moon Free from Earths Gravity.
Because the distance (Sun/Moon) is too big.
@@jacobvandijk6525 In other Words the Suns Gravity is a Weak Force Upon the Earth and Moon.
It is Also the Vacuum of Space that Allows the Suns Gravity to Move such Large Objects as Planets etc.
@@chrisgriffiths2533 Use F = G . M . m / r^2, with m = mass moon. First use M = mass sun and r = distance sun/moon, then use M = mass earth and r = earth/moon.
@@jacobvandijk6525 Do Gravity's Add and Subtract from One Another.
For Example :-
When the Moon is between the Earth and Sun. Does the Earth Experience the Suns Gravity Plus the Moons Gravity.
Or When the Earth is between the Moon and the Sun. Does the Earth Experience the Suns Gravity Minus the Moons Gravity
@@chrisgriffiths2533 Gravitational force is a vector-quantity. So it's all about adding and subtracting vectors.