When a skier is at the top of a hill he has?
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When a skier is at the top of a hill he has?
Potential Energy
Calculating Potential Energy : Example Question #1 Explanation: At the top of the hill the skier has purely potential energy. At the bottom, she has purely kinetic energy. We can solve by understanding the conservation of energy.
When a skier rides a ski lift uphill what energy is stored?
Kinetic energy
Kinetic energy – the energy of motion – depends on the mass of the object and the speed of the object. The skier accelerated down the hill as he loses elevation. The speed or its derivation, (acceleration) depend on the slope of the hill.
Is a skier at the top of a hill potential or kinetic energy?
The skier possesses gravitational potential energy at the top of a slope, which transforms into kinetic energy as he moves down the slope.
What is the force that accelerates a skier down a hill?
Gravity
Gravity accelerates the skier down the hill at ever increasing speed, but another force is also at work to slow the skier. Friction. It’s created when the bottom of the ski rubs against the surface of the snow. The skiers trade acceleration for control, using the friction between their skis and the snow.
What is lift in skiing?
A ski lift is a mechanism for transporting skiers up a hill. Ski lifts are typically a paid service at ski resorts. The first ski lift was built in 1908 by German Robert Winterhalder in Schollach/Eisenbach, Hochschwarzwald.
What is the work done on the skier?
Consequently, the force of gravity is the only force doing work on the skier and therefore the total mechanical energy of the skier is conserved. Potential energy is transformed into kinetic energy; and the potential energy lost equals the kinetic energy which is gained.
What is kinetic motion?
Kinetic energy is a property of a moving object or particle and depends not only on its motion but also on its mass. The kind of motion may be translation (or motion along a path from one place to another), rotation about an axis, vibration, or any combination of motions.
How does the kinetic energy of a skier change?
As the skier begins the descent down the hill, potential energy is lost and kinetic energy (i.e., energy of motion) is gained. As the skier loses height (and thus loses potential energy), she gains speed (and thus gains kinetic energy).
What are the forces on a skier?
Gravity, friction and the reaction forces from the snow. These are forces that act upon a skier. A skier must manage these forces through proactive and reactive movements to stay in balance. A skier and the equipment they are wearing (boots, clothing, etc) is a skier’s mass.
How fast can a skier ski down a mountain slope?
The average downhill speed of skiers varies by type. The skiing speeds of professional athletes can reach upwards of 150 mph, but most recreational skiers travel at speeds between 10 and 20 mph.