A skier is gliding down a gentle slope at a constant speed. What energy transformation is taking place? A. K-U, B. U,K C. EK D. U,E E. K-E
Q: A 18-kg child slides down a 4.0m-high playground slide. She starts from rest and her speed at the…
A:
Q: 5. A sled of mass M is sliding at speed v, on a frozen lake when it hits a patch of rough ice and…
A:
Q: An 80 kg object is dropped from rest from a height of 25 meters above the ground. Use the concept…
A:
Q: A 5 kg block slides on a surface with friction (mu = 0.1). If the initial KE is 50 J, how far does…
A:
Q: A weighlifter lifts a 50-kg barbell a vertical height of 2.0 m in 5.0 s. What is the average power…
A:
Q: 3. See the figure below. If a 3 kg mass is moved up the first frictionless incline and the same 3 kg…
A:
Q: A block with a mass of 5.0 kg and an initial speed of 2.0 m/s comes to rest after sliding for about…
A: Given mass of block, m = 5 Kg Initial speed of block, Vi = 2 m/s As the blocks comes to rest after…
Q: A bungee jumper who is about to jump has her energy stored entirely as gravitational potential…
A: Initially the bungee jumper has her total initial energy stored as the gravitational potential…
Q: favourite swimming hole includes a rope swing from an elevated landing. The boy swings down and…
A:
Q: A horizontal force of 400 N is applied to a 50-kg cart across a 10-m level surface. If the cart…
A: Given Horizontal force=400N Mass of cart=50kg Displacement=10m…
Q: The kinetic energy of a 3.0 kg object moving at a speed of 9.3 m/s would be: a. 130 J b. 260 J…
A:
Q: 270kg load is lifted 21.0m vertically with an acceleration a=0.170g by a single cable. A. Determine…
A:
Q: A 95 kg man runs up a 20 m high stairs at a constant speed. If it takes him 8 seconds to reach the…
A:
Q: The below chart represents an object's mechanical energy at two points in time. Assume that the…
A: Dear student, According to the guidelines I am allowed to answer only one…
Q: A crate slides down a ramp with friction in an open system. Which of the following statements must…
A:
Q: A 5.00 gram bullet moving horizontally with a speed of 400 m/s collides with a wooden block. After…
A:
Q: According to the Law of Conservation of Energy, energy can never be destroyed, but merely…
A: Mass of object = 1 kg Distance to which object is lifted upwards = 5 m Force applied in upward…
Q: a 40 N horizontal force is applied to a 6.0 kg box. Friction is negligible. The box moves a…
A: Work done is given by,
Q: How much work is done when a 4kg block of ice is moved from rest to a speed of 5m/s? A. 50 J…
A:
Q: 1. A 50 kg sled is pushed by applying a force F = 400 N, as shown, with @= 30°. The surface is rough…
A: Hi, you have submitted multiple subpart questions and it is not specified which parts problem you…
Q: Positive work W done on a system means O a. Energy is transferred out of the system b. Energy can…
A: Introduction: A thermodynamic system is a matter or object that is confined in space by walls, which…
Trending now
This is a popular solution!
Step by step
Solved in 2 steps
- 10.) What is one effect of friction? a. Mechanical energy is transformed into thermal energy. b. Thermal energy is transformed into mechanical energy c. Thermal energy is transformed into potential energy4. A 70 kg skier is traveling at 25 m/s downhill at point A, which is 80 m above the base, as shown. The surface is rough with 4 = .15 and ø= 20°. What is the initial mechanical energy of the skier? b. How fast is she traveling at the bottom of the hill? c. If she continues moving along the horizontal surface with the same 4, how far will she travel before coming to rest? a. ATimmy (m=50kg) is at the top of a 7m tall hill. a. What type of energy does he have at the top of the hill? b. What is his potential energy? c. What type of energy does he have at the bottom of the hill? d. What is his speed at the bottom of the hill, after he slides down it? e. The hill has a river at the bottom, that causes two things. First is a vertical drop of 2m, second is a horizontal gap. What distance is the gap if Timmy makes the jump? Here you may also assume that at the bottom of the hill Timmy flies horizontally off.
- I need help with these questionsA skier is gliding down a gentle slope at a constant speed. What energy transformation is taking place? Please Include work-energy bar chart A. K U B. U, K С. Е, — К E K D. U, E E. K E12. Consider the following situation: A car is moving with a high speed at the bottom of a hill (initial state) runs out of gas and gradually coasts to a stop as it moves up the incline to a location near the top of the hill (final state). Ignore all frictional forces. Which work-energy bar chart below best describes this situation? Chart A Chart B Chart C Chart D
- A baseball hits the catcher’s glove with a horizontal velocity of 55m/s. The mass of the baseball is 0.15kg. The displacement of the ball due to the deformation of the catcher’s glove and the movement of the catcher’s hand is 23cm from the instant the ball makes contact with the glove until it stops. a. How much kinetic energy does the baseball have just before it strikes the glove? b. How much work does the catcher have to do to the ball during the catch and is it positive or negative? c. What is the average impact force exerted by the glove on the baseball? Answer parts a-c. Include units and direction.2. A ball is dropped from the top of a building. You choose the top of the building as a reference point while your friend chooses the bottom as the reference point. Explain whether the energy calculated using the two different reference points are same or different. a. The ball PE at any point b. Change in PE as a result of the fall KE at any point C.A roller coaster slows as it goes up a hill. The energy transformation isA. Ug → K B. Ug → Eth C. K → Ug D. K → Eth
- 10. Jared and Clay are climbing the stairs. Jared gets tired and stops halfway to the fourth floor. Clay makes it to the fourth floor v.. a problem. If Jared is twice as heavy as Clay, who has more potential energy? Explain.Which of the statements below is true when you catch a baseball that comes at you horizontally? a. The work that you do is positive. b. The work that you do is negative. c. Work is not a vector and cannot be referred to as positive or negative. d. Work is a scalar product expressed in terms of magnitudes, so it is never negative. e. Work is expressed in terms of kinetic energy, which must be positive.You lift a box off the ground and then hold it at a height above your waist. Which does not describe the work or energy in this process? A. You did positive work on the box. B. Gravity did negative work on the box C. The box's gravitational potential energy increased. D. The box's kinetic energy remained constant throughout the process.