This is actually a relatively simple question. Gravitational Potential Energy is defined as Mass times Height times the gravitational constant. mgh is the formula. We set this equal to zero. mgh = 4441J. We know the height, 3.6 meters and the gravitational constant, which on earth is 9.8 meters per second squared. We then solve for m. m = 125.88kg. Hope this helps!
I think itz gravitational potential energy
Kinetic energy, and gravitational potential energy.
Gravitational potential energy is equal to mgh (mass x gravity x height). Gravity is about 9.8. The answer is in newtons.
Diving uses gravitational energy to make the diver fall, and chemical energy to enable the diver to control his or her muscles while diving.
The force of gravity increases your potential energy as you increase your distance from the Earth's surface. Therefore, when you climb to the top of a diving board you have more potential energy due to gravity than you had on the ground.
The diver at the top of a diving board has potential energy
I think itz gravitational potential energy
Kinetic energy, and gravitational potential energy.
Yes but not both at the same time. All energy is conserved, therefore energy before equals energy after. For example jumping from a ten metre diving board you have gravitational potential energy as you are fulling gravitational potential energy is converted to kinetic energy.
64.9559kg if the gravity acceleration is 1
You do this: multiply the mass X Banana divided by chocolate to the power of 2 X M95 Barret 50cal shooting a watermelon 15 miles away in midair while doing a backflip of a diving board into a pool of jelly in speedo.
Gravitational potential energy is equal to mgh (mass x gravity x height). Gravity is about 9.8. The answer is in newtons.
potential energy
Diving uses gravitational energy to make the diver fall, and chemical energy to enable the diver to control his or her muscles while diving.
The force of gravity increases your potential energy as you increase your distance from the Earth's surface. Therefore, when you climb to the top of a diving board you have more potential energy due to gravity than you had on the ground.
The higher the diving board, the more increase of potential energy.
Assuming that the two are the same man ... the man diving from a 10 meter board would have five times the potential energy as the man on the 2 meter board. The energy is directly proportional to the height.