A skier is pulled up a slope at a constant velocity by a tow bar. The...

A resort uses a rope to pull a 55-kg skier up a 37 ∘ slope at...

A resort uses a rope to pull a 55-kg skier up a 37 ∘ slope at constant speed for 180 m . The coefficient of kinetic friction between snow and skis is μk = 0.18. A) Calculate the tension in the rope. B) How much work does the rope do on the skier?

A 79.0-kg skier starts from rest and slides down a 36.0-m frictionless slope that is inclined...

A 79.0-kg skier starts from rest and slides down a 36.0-m frictionless slope that is inclined at an angle of 15.0° with the horizontal. Ignore air resistance. (a) Calculate the work done by gravity on the skier and the work done by the normal force on the skier. Work done by gravity? Work done by normal force? (b) If the slope is not frictionless so that the skier has a final velocity of 4 m/s, calculate the work done by...

A 60.0-kg skier coasts up a snow-covered hill that makes an angle of 23.5 ° with...

A 60.0-kg skier coasts up a snow-covered hill that makes an angle of 23.5 ° with the horizontal. The initial speed of the skier is 9.17 m/s. After coasting a distance of 1.45 m up the slope, the speed of the skier is 3.65 m/s. (a) Find the work done by the kinetic frictional force that acts on the skis. (b) What is the magnitude of the kinetic frictional force?

5. During a downhill skiing start, a 65 kg skier generates the following forces while moving...

5. During a downhill skiing start, a 65 kg skier generates the following forces while moving down a 20 degree slope. A reaction force between their poles and the snow that is directed 10 degrees above the slope at a magnitude of 200 Newtons. A reaction force between the skis and the snow that is directed 50 degrees above the slope and is equal to 700 Newtons. The other two forces acting on the skier are gravity, and a friction...

A girl is sledding down a slope that is inclined at 30.00 with respect to the...

A girl is sledding down a slope that is inclined at 30.00 with respect to the horizontal. The wind is aiding the motion by providing a steady force of 105 N that is parallel to the motion of the sled. The combined mass of the girl and the sled is 65.0 kg, and the coefficient of kinetic friction between the snow and the runners of the sled is 0.150. How much time is required for the sled to travel down...

A skier slides straight down an incline of 25 degrees without using her poles. The slope...

A skier slides straight down an incline of 25 degrees without using her poles. The slope itself is 96 meters long, and the skier starts from rest at the top. a. What would the velocity of the skier be at the bottom of the incline if friction can be neglected? b. What would your answer be to the previous question if the coefficient of kinetic friction between the skis and the snow is 0.13 on the incline? c. Upon reaching...

Determine the stopping distance for a skier moving down a slope with friction with an initial...

Determine the stopping distance for a skier moving down a slope with friction with an initial speed of 19.0 m/s . Assume that θ = 5.62 deg, g=9.81 m/s2, and that the coefficient of kinetic friction between the skier and the slope is 0.289. Suppose the temperature drops by 2 degrees C and the skier waxes her skis; the coefficient of kinetic friction drops to 0.173. What is now the stopping distance, for the same initial velocity?

A 73- kg skier grips a moving rope that is powered by an engine and is...

A 73- kg skier grips a moving rope that is powered by an engine and is pulled at constant speed to the top of a 23 ∘ hill. The skier is pulled a distance x = 280 m along the incline and it takes 2.0 min to reach the top of the hill. Part A If the coefficient of kinetic friction between the snow and skis is μ k = 0.10, what horsepower engine is required if 30 such skiers...

#1. A water skier is pulled by a boat traveling with a constant velocity. Which one...

#1. A water skier is pulled by a boat traveling with a constant velocity. Which one of the following statements is false concerning this situation? A) The water skier is in equilibrium. ; B) The net acceleration of the skier is zero [m/s]. ; C) The net force on the skier is zero [N]. ; D) There is a net horizontal force on the skier in the direction the boat’s velocity. ; E) The net vertical force on the skier...

A book is pulled to the right at constant velocity by a 10 N force acting...

A book is pulled to the right at constant velocity by a 10 N force acting 30° above the horizontal. The coefficient of the kinetic friction between the book and the horizontal surface is 0.5. What is the weight of the book? What is the normal force?