I think itz gravitational potential energy
150
Diving uses gravitational energy to make the diver fall, and chemical energy to enable the diver to control his or her muscles while diving.
Gravitational potential energy is equal to mgh (mass x gravity x height). Gravity is about 9.8. The answer is in newtons.
No. It will accelerate the diver downward only.
Gravity always acts as a pair of forces, not as one single force. The strength of the forces depends on both masses, not just one of them. The forces of gravity attract the diver toward the earth and the earth toward the diver. The forces are equal in both directions. If the diver weighs 150 pounds on earth, then the earth weighs 150 pounds on the diver. The diver accelerates toward the center of the earth with an acceleration equal to (weight)/(diver's mass), and the earth accelerates toward the diver with an acceleration equal to (weight)/(earth's mass). Has that helped, or just confused the issue further ?
150
The diver at the top of a diving board has potential energy
64.9559kg if the gravity acceleration is 1
The higher the diving board, the more increase of potential energy.
it depends if it is bouncing if it is it is kinetic energy but it your just standing on it it's potential
Diving uses gravitational energy to make the diver fall, and chemical energy to enable the diver to control his or her muscles while diving.
Gravitational potential energy is equal to mgh (mass x gravity x height). Gravity is about 9.8. The answer is in newtons.
62,500j
Yes!
No. It will accelerate the diver downward only.
The diver dove into the water off the diving board.
The board stores energy as the diver jumps onto it, then returns the energy, which the diver may then use in addition to what he adds with his next jump. This will continue until he jumps away from the board, or until it breaks from attempting to store too much energy.