Admin Table of Contents
- 1 What happen to the diver as he jumped off the diving board into the water?
- 2 Does a diving board exert a force against the diver why?
- 3 Where do the divers have the most potential energy?
- 4 What happens to the energy when the diver hits the water?
- 5 What type of energy does a diver have?
- 6 How fast does the force of gravity pull you down?
- 7 How fast can a cliff diver dive?
- 8 Does the moment of inertia cause the diver to rotate?
What happen to the diver as he jumped off the diving board into the water?
Once he jumps off the springboard we see he gets additional energy from the springboard and falls down under action of gravity g . Gets converted in to kinetic and thermal energy of surrounding air and his body. Once diver reaches the water, we see water splashing and hear noise of splash.
Does a diving board exert a force against the diver why?
The force from when the diver jumps on the board, brings the board down,(gravity and the spring working together)propelling the diver to go up in the air, which is an equal and opposite force. (When the diver jumps down on a diving board. The board springs back and forces the diver into the air.
How can you tell that a high diver has gravitational potential energy?
Stored Energy The diver has energy because of her position high above the pool. The type of energy she has is called potential energy. A: Because the diver is high above the water, she has the potential to fall toward Earth because of gravity. This gives her potential energy.
Where do the divers have the most potential energy?
When you dive off diving board , you first press it downwards, causing it to store potential energy in it. When it has maximum amount of potential energy stored in it, the diving board converts potential energy into kinetic energy and pushes it up in the air.
What happens to the energy when the diver hits the water?
When you then dive into the water, your potential energy is converted to kinetic energy as you fall, and when you hit the surface, some of that energy is transferred to the water, causing it to splash into the air.
What should the diver do to jump higher from the diving board why?
A platform diver must generate upward and forward momentum off the platform by bending the knees (almost like loading a spring) and pushing off the hard platform surface with toes, ankles, knees and hips, while also using arm swings and/or a running approach to generate more height and flip.
What type of energy does a diver have?
potential energy
Stored Energy The diver has energy because of her position high above the pool. The type of energy she has is called potential energy.
How fast does the force of gravity pull you down?
But gravity is a powerful force. As you fall, it pulls you toward the earth, or in the case of cliff diving, toward the water, at a speed of 32 feet per second per second (9.8 meters per second per second).
How does gravity affect cliff diving?
You encounter no resistance from friction with the ground as you would when running or skiing, and you suffer negligible air resistance. But gravity is a powerful force. As you fall, it pulls you toward the earth, or in the case of cliff diving, toward the water, at a speed of 32 feet per second per second (9.8 meters per second per second).
How fast can a cliff diver dive?
That’s nine times stronger than the forces Olympic high divers feel diving from 33-foot (10-meter) high platforms. By the time they reached the water, the cliff diving competitors were traveling at speeds of 53 to 62 mph (85 to 100 kph) [source: Red Bull Media Service, Red Bull Media Service].
Does the moment of inertia cause the diver to rotate?
Although there is a gravitational force on the diver, it doesn’t cause a rotation. Back to the moment of inertia. Let me go ahead and show one of my favorite moment of inertia demos – a demo that you can do on your own. For this example, I have two sticks (I used PVC pipes) and some masses (juice boxes).