objects of different masses are suspended from a height. which combination of features will have the greatest gravitational potential energy

low mass low height
low mass high height
high mass high height
high mass low height

High mass and high height

jnk

High Mass and high height.♥️

Gravitational potential energy is given by the formula:

E = m * g * h

where E is the gravitational potential energy, m is the mass of the object, g is the acceleration due to gravity, and h is the height.

To determine which combination of features will have the greatest gravitational potential energy, we need to compare the values of m and h for each option.

1. Low mass, low height:
In this case, both the mass (m) and the height (h) are low. Therefore, the gravitational potential energy (E) will be relatively low.

2. Low mass, high height:
Here, the mass (m) is low, but the height (h) is high. As the height is increased, the gravitational potential energy increases. So, compared to the first option, the gravitational potential energy will be higher.

3. High mass, high height:
In this case, both the mass (m) and the height (h) are high. Since both these factors contribute positively to the gravitational potential energy, this combination will have the greatest gravitational potential energy among the given options.

4. High mass, low height:
Finally, when the mass (m) is high but the height (h) is low, the resulting gravitational potential energy will be lower compared to the third option.

Hence, the combination of high mass and high height will have the greatest gravitational potential energy.