Kinetic energy is conserved in this process because it is quickly turn on by reducing pressure of air.
Same, mechanical enegy is also conserved.
Like linear momentum (mv), angular momentum (r×mv) is a conserved quantity, where rr is the vector from the center of rotation. For a skater holding a static pose, for each particle making up her body, the contribution in magnitude to the total angular momentum is given by mvr. Thus bringing in her arms reduces r for those particles. In order to conserve angular momentum, there is then an increase in the angular velocity.
9.An ice skater extends her arms as quickly turns on itself. Does your kinetic energy is...
1. An ice skater is spinning about a vertical axis with her arms fully extended. If her arms are pulled in closer to her body, in which of the following ways are the angular momentum and kinetic energy of the skater affected? Angular Momentum- Kinetic Energy A) Increases-Increases B) Increases-Remains constant C) Remains constant- Increases D) Remains constant-Remains constant
6. A figure skater is spinning slowly with arms outstretched. She brings her arms in close to her body and her angular speed increases dramatically. The increase in angular speed is a demonstration of: (A) Conservation of angular momentum. (B) Conservation of momentum. (C) Conservation of total energy. (D) Conservation of kinetic energy. (E) Conservation of mechanical energy.
An ice skater rotating in place on (essentially frictionless) ice extends her arms and as result loses 10% of her kinetic energy. There is no air resistance. Explain fully what has happened. By what percentage did she change her moment of inertia?
An ice skater spinning with outstretched arms has an angular speed of 5.0rad/s . She tucks in her arms, decreasing her moment of inertia by 29% . What is the resulting angular speed? rad/s By what factor does the skater's kinetic energy change? (Neglect any frictional effects.) where does the extra kinetic energy come from?
Linear Momentum of an object is conserved At all times b. Only when the net external force on the object is Zero When the net external torque on the object is Zero d. Never A truck of mass 4000 (kg) is moving at 10 (m/s). A car of mass 1000 (kg) is moving at 40 (m/s). So, the truck’s momentum, compared to the car, is Greater b. Smaller c. the same d. Cannot say without knowing their accelerations A 1000...