The surfer in the photo is catching a wave. Suppose she starts at the top of...
The surfer in the photo is catching a wave. Suppose she starts at the top of the wave with a speed of 2.98 m/s and moves down the wave until her speed reaches 14.0 m/s. The drop in her vertical height is 2.29 m. If her mass is 57.4 kg, how much work is done by the (non-conservative) force of the wave?
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The surfer in the photo is catching a wave. Suppose she starts
at the top of...
An Olympic luge (sled) track has a vertical drop of 160 m and a length of...
An Olympic luge (sled) track has a vertical drop of 160 m and a length of 1600 m. A typical slider and her sled have a combined mass of 100 kg. Assume that she starts effectively from rest at the top of the track and reaches a final speed of 40 m/s (90 mph) at the bottom. 1. Find values for both the work done on her by gravity and the work done by non-conservative forces. 2. Assuming the only...
A surfer is on the wave sinusoidal in shape with crests 14. The surfer bobs vertical...
A surfer is on the wave sinusoidal in shape with crests 14. The surfer bobs vertical distance 3.6 m from trough to crests in 1.5 s. Find the wave speed. Write down the expressions for the particle's displacement and its speed. A police has a frequency of 550 Hz as it approaches you, 450 Hz after it has passed. How fast is the police car traveling? Sand speed 343 m/s. A light ray is aimed at 1 cm thick glass...
A skier with mass 64.0 kg starts at rest at the top of an 842 m...
A skier with mass 64.0 kg starts at rest at the top of an 842 m long ski slope, which makes an angle 13.0 ∘ with the horizontal. A typical coefficient of friction between skis and snow is 5.20×10−2. skiers don't go straight down the hill- they zigzag back and forth. Even though they still end up at the bottom of the hill, they've lost more energy to friction because friction is a non-conservative force. Let's say due to zigzagging,...
A block of mass m is at rest at the top of a ramp of vertical...
A block of mass m is at rest at the top of a ramp of vertical height h. The block starts to slide down the frictionless ramp and reaches a speed v at the bottom. If the same block were to reach a speed 2v at the bottom, it would need to slide down a frictionless ramp of vertical height _____.
a greased piggy (563kg) starts out at the top of a frictionless slide with a speed...
a greased piggy (563kg) starts out at the top of a frictionless slide with a speed of 3.2 m/s. the top of the slid is 4m abouve the barn floor and ends up delivering the piggy horizontally onto the friction free floor. after sliding for 3.2 m, it collides with a spring and compresses it by .24m. draw a picture illustrating the problem, prividing important details. what is the intital mechanical energy? velocity at the bottom of slide, just prior...
A 40-kg child slides down a curved slide starting at the top with an initial speed...
A 40-kg child slides down a curved slide starting at the top with an initial speed of 4 m/s. (a) Suppose that the slide is frictionless. Determine the speed of the child when she is 3 m below her starting height. (b) Suppose that the slide has friction. Determine the speed of the child when she is 5 m below her starting height if she starts from rest and 300 J of thermal energy is dissipated during the motion.
A 5kg block starts at a height of 10m above the ground and slides 20m down...
A 5kg block starts at a height of 10m above the ground and slides 20m down a rough surfaced incline. The work done by the frictional force in sliding down the incline is 240 J. It reaches the bottom of the incline and then enters a frictionless vertical loop of radius 2m. The speed of the block at the bottom of the hoop is 10.0m/s. The block performs one revolution and exits the loop.o sinu or mohe imImtombnes biduo nsotinpie...
A roller coaster starts at some height that you do not know. It goes down this...
A roller coaster starts at some height that you do not know. It goes down this hill and then goes up a second hill that is 29.7 m above the first drop. At the top of this hill, it has a speed of 28.5 m/s. So how high was the initial hill?
A 61.2-kg skateboarder starts out with a speed of 2.26 m/s. He does 107 J of...
A 61.2-kg skateboarder starts out with a speed of 2.26 m/s. He does 107 J of work on himself by pushing with his feet against the ground. In addition, friction does -258 J of work on him. In both cases, the forces doing the work are non-conservative. The final speed of the skateboarder is 5.65 m/s. (a) Calculate the change (PEf - PE0) in the gravitational potential energy. (b) How much has the vertical height of the skater changed? Give...
A 60.7-kg skateboarder starts out with a speed of 2.41 m/s. He does 99.2 J of...
A 60.7-kg skateboarder starts out with a speed of 2.41 m/s. He does 99.2 J of work on himself by pushing with his feet against the ground. In addition, friction does -212 J of work on him. In both cases, the forces doing the work are non-conservative. The final speed of the skateboarder is 8.11 m/s. (a) Calculate the change (PEf - PE0) in the gravitational potential energy. (b) How much has the vertical height of the skater changed? Give...
An Olympic luge (sled) track has a vertical drop of 160 m and a length of 1600 m. A typical slider and her sled have a combined mass of 100 kg. Assume that she starts effectively from rest at the top of the track and reaches a final speed of 40 m/s (90 mph) at the bottom. 1. Find values for both the work done on her by gravity and the work done by non-conservative forces. 2. Assuming the only...
A surfer is on the wave sinusoidal in shape with crests 14. The surfer bobs vertical distance 3.6 m from trough to crests in 1.5 s. Find the wave speed. Write down the expressions for the particle's displacement and its speed. A police has a frequency of 550 Hz as it approaches you, 450 Hz after it has passed. How fast is the police car traveling? Sand speed 343 m/s. A light ray is aimed at 1 cm thick glass...
A 5kg block starts at a height of 10m above the ground and slides 20m down a rough surfaced incline. The work done by the frictional force in sliding down the incline is 240 J. It reaches the bottom of the incline and then enters a frictionless vertical loop of radius 2m. The speed of the block at the bottom of the hoop is 10.0m/s. The block performs one revolution and exits the loop.o sinu or mohe imImtombnes biduo nsotinpie...
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