6. what is the formula for gravitational potential energy? (1 point)

a.KE=1/2MV^2
B. PE=KE
C. PE=mgh
D. 1/2MV^2=mgh

I think its C, am i right?

yes

Yes, you are correct! The formula for gravitational potential energy is given by option C, which is PE = mgh.

To understand how to arrive at this answer, it is important to know the basic concepts associated with gravitational potential energy. Gravitational potential energy refers to the energy possessed by an object due to its position in a gravitational field. It depends on three factors: the mass of the object (m), the acceleration due to gravity (g), and the height of the object above some reference point (h).

The formula for gravitational potential energy is derived by considering the work done against gravity. The work done (W) is equal to the force acting on an object (F) multiplied by the distance over which the force is applied (d). In the case of gravitational potential energy, the force is the weight of the object (mg) and the distance is the height (h).

So, W = F × d, which can also be written as W = mgh. Since work done is equivalent to the change in potential energy, we can equate the two and obtain the formula for gravitational potential energy as PE = mgh.

Option A, KE = 1/2MV^2, represents the formula for kinetic energy, not gravitational potential energy. Option B, PE = KE, is incorrect because kinetic energy and gravitational potential energy are distinct forms of energy. Option D, 1/2MV^2 = mgh, is not a valid formula as it combines the formulas for kinetic energy and gravitational potential energy in an incorrect way.

Therefore, the correct answer is C, PE = mgh.