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Remainingm 34 47 59 Our skier is now racing down the-34 1 m height and angle...
A skier of mass 67.5 kilogram is racing down a real hill with an angle of...
A skier of mass 67.5 kilogram is racing down a real hill with an angle of incline of 9.78 degrees. If the total resistive forces of friction (this includes air resistance and the friction between the skies and the snow) are 14.3 newtons, what is the acceleration of the skier in metres per second squared? Just give me the number.
A skier of mass 50.9 kilograms is racing down a hill with an angle of incline...
A skier of mass 50.9 kilograms is racing down a hill with an angle of incline of 20.1 degrees. Ignore air resistance and all other types of friction. Yes, I know that is silly. Wait for the next question. What is the acceleration in metres per second squared of the skier?
A skier going down a slope of angle θ below the horizontal is opposed by a...
A skier going down a slope of angle θ below the horizontal is opposed by a turbulent drag force that the air exerts on the skier and by a kinetic friction force that the snow exerts on the skier. The mass of the skier is m. Determine the terminal speed assuming that the coefficient of kinetic friction between the skis and the snow is μ, the density of air is ρ, the skier's frontal area is A, and the drag...
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,...
Question 1 1 pts A snow skier is racing directly downhill on snow with a kinetic...
Question 1 1 pts A snow skier is racing directly downhill on snow with a kinetic friction coefficient (between the snow and the skis) of 0.05. The angle of the slope is 40 degrees. The mass of the skier and ski equipment is 78 kg, the skier's cross-sectional area (in a "tucked" position) is 1.4 m2, the drag coefficient with respect to the air is 0.14 and the air's density Pair =1.21 kg/m3. What is the skier's terminal speed going...
please explain and write neatly 1. Once again we have a skier on an inclined plane....
please explain and write neatly
1. Once again we have a skier on an inclined plane. The skier has mass M and starts from rest. Her speed at the bottom of the slope is 12.0 meters/second. The hill is inclined 30 degrees from the horizontal and the length of the slope is 100.0 meters. Use the law of conservation of energy to determine her final speed and write that number down here: What could account for the difference in your...
Olympic skier Tina Maze skis down a steep slope that descends at an angle of 30∘...
Olympic skier Tina Maze skis down a steep slope that descends at an angle of 30∘ below the horizontal. The coefficient of sliding friction between her skis and the snow is 0.10. A. Determine Maze's acceleration B. Determine Maze's speed 3.2 s after starting.
3. A skier is at the top of a slope 50m (the vertical height) above the...
3. A skier is at the top of a slope 50m (the vertical height) above the base of the slope with an initial speed of 7m/s. The slope is inclined 35 degrees above horizontal and has a coefficient of kinetic friction of 0.2. What will her speed be at the bottom of the incline? a. 28.8 m/s b. 26.5 m/s c. 27.4 m/s d. 36.2 m/s e. 32.1 m/s
3. A skier is at the top of a slope 50m (the vertical height) above the...
3. A skier is at the top of a slope 50m (the vertical height) above the base of the slope with an initial speed of 7m/s. The slope is inclined 35 degrees above horizontal and has a coefficient of kinetic friction of 0.2. What will her speed be at the bottom of the incline? 28.8 m/s a. b. 26.5 m/s c. 27.4 m/s d. 36.2 m/s e. 32.1 m/s
An extreme skier, starting from rest, coasts down a mountain slope that makes an angle of...
An extreme skier, starting from rest, coasts down a mountain slope that makes an angle of 25.0° with the horizontal. The coefficient of kinetic friction between her skis and the snow is 0.200. She coasts down a distance of 12.1 m before coming to the edge of a cliff. Without slowing down, she skis off the cliff and lands downhill at a point whose vertical distance is 2.60 m below the edge. How fast is she going just before she...
Question 1 1 pts A snow skier is racing directly downhill on snow with a kinetic friction coefficient (between the snow and the skis) of 0.05. The angle of the slope is 40 degrees. The mass of the skier and ski equipment is 78 kg, the skier's cross-sectional area (in a "tucked" position) is 1.4 m2, the drag coefficient with respect to the air is 0.14 and the air's density Pair =1.21 kg/m3. What is the skier's terminal speed going...
please explain and write neatly
1. Once again we have a skier on an inclined plane. The skier has mass M and starts from rest. Her speed at the bottom of the slope is 12.0 meters/second. The hill is inclined 30 degrees from the horizontal and the length of the slope is 100.0 meters. Use the law of conservation of energy to determine her final speed and write that number down here: What could account for the difference in your...
3. A skier is at the top of a slope 50m (the vertical height) above the base of the slope with an initial speed of 7m/s. The slope is inclined 35 degrees above horizontal and has a coefficient of kinetic friction of 0.2. What will her speed be at the bottom of the incline? a. 28.8 m/s b. 26.5 m/s c. 27.4 m/s d. 36.2 m/s e. 32.1 m/s
3. A skier is at the top of a slope 50m (the vertical height) above the base of the slope with an initial speed of 7m/s. The slope is inclined 35 degrees above horizontal and has a coefficient of kinetic friction of 0.2. What will her speed be at the bottom of the incline? 28.8 m/s a. b. 26.5 m/s c. 27.4 m/s d. 36.2 m/s e. 32.1 m/s
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