Generate a realistic image showing a detailed tropical environment. Depict a tall coconut tree with lush green foliage reaching a height of 5 meters. The tree is loaded with coconuts, but one coconut in particular stands out. It is larger than the rest, possessing a mass of 2kg, and is perched noticeably high on the tree. The scene should be tranquil, with radiant sunshine casting soft, shifting shadows below the tree. Emphasize the height of the tree and the coconut's height from the ground to hint at the concept of potential energy, without including any text.

A coconut of mass 2kg is on a tree of 5m tall; determine the potential energy of this height Take g=10ms^-2.

P.E=mgh

100J

To determine the potential energy of the coconut at a height of 5 meters, we can use the equation:

Potential Energy = mass * gravity * height

Given:
mass of the coconut (m) = 2 kg
height (h) = 5 m
acceleration due to gravity (g) = 10 m/s^2

Plugging in these values into the equation, we have:

Potential Energy = 2 kg * 10 m/s^2 * 5 m

Calculating this expression:

Potential Energy = 100 kg m^2/s^2

Potential energy is often measured in joules (J), so we can write the answer as:

Potential Energy = 100 J

Therefore, the potential energy of the coconut at a height of 5 meters is 100 joules.

A coconut of mass 2kg is on a tree of 5m tall; determine the potential energy of this height Take g=10ms^-2.

P.E=mgh

100J

To determine the potential energy of the coconut at a height of 5 meters, we can use the equation:

6 m/s

12kg

4

Show me the answer

A coconut of mass 2kg is on a tree of 5m tall; determine the potential energy of this height Take g=10ms^-2.

P.E=m*g*h

100J

To determine the potential energy of the coconut at a height of 5 meters, we can use the equation:

6 m/s

12kg

4

Show me the answer

P.E=mgh