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angle of projection,initial velocity and gravitational acceleration
Yes, gravitational force decreases as distance increases. Actually it decreases much faster than that! You need to look up the formula.
Gravitational energy is U = mgh. Therefore, you need the egg's mass and the height at which it will be dropped. g=9.8
You need to know time and distance
does anybody know the answer? im doing a junior certificate project on this and i need to research it! PLEASE answer if you know! THANKS :)
The mass of the planet is all you need to know. That, along with the mass of the other object and the distance between their centers, tells you the strength of the force between them.
THE BODY IS AT REST IN THE VERTICAL DIMENSION.
angle of projection,initial velocity and gravitational acceleration
You need to know . . . -- the mass of each object -- the distance between their centers of mass -- the value of the universal gravitational constant
No. The gravitational force is a different force from magnetism, and depends only on the mass and the distance. Specifically, a body does not need to rotate to have gravitational force.
You need to know the mass of the solid.
Yes, gravitational force decreases as distance increases. Actually it decreases much faster than that! You need to look up the formula.
To calculate the gravitational force between two objects, all you need is the mass of those two objects, and the distance between their gravitational centers. If You know that, you can calculate the magnitude of the force, and it doesn´t matter if that situation occurs right now, in 2 days, or in 1357. If you want anything to change (force magnitude, distance or whatever you want), of course, you need time, but you cannot make any statements about a physical situation if you only know the time, or how much time has passed.
You need to know the injection pressure and mold volume to determine clamping force. Material is well im-material to the question at hand.
i need your help guys coommee on plzzz;)
Gravitational energy is U = mgh. Therefore, you need the egg's mass and the height at which it will be dropped. g=9.8
You need to know time and distance