herself on a ciff that angles towards the edge. The length of the top of the...
A cliff diver positions herself on a cliff that angles downwards towards the edge. The length of the top of the cliff is 46.0 m and the angle of the cliff is θ = 18.0° below the horizontal. The cliff diver runs towards the edge of the cliff with a constant speed, and reaches the edge of the cliff in a time of 5.90 s. After running straight off the edge of the cliff (without jumping up), the diver falls...
A diff diver positions herself on a diff that angles downwards towards the edge. The length of the top of the cliff is 43.0 m and the angle of the city is 8 - 20.0" below the horizontal. The cliff diver runs towards the edge of the diff with a constant speed, and she reaches the edge of the cliff in a time of 5.50 s. After running straight off the edge of the cliff(without jumping up), the diver falls...
A cliff diver positions herself on a cliff that angles downwards towards the edge. The length of the top of the cliff is 48.0 m and the angle of the cliff is θ = 19.0° below the horizontal. The cliff diver runs towards the edge of the cliff with a constant speed, and reaches the edge of the cliff in a time of 6.30 s. After running straight off the edge of the cliff (without jumping up), the diver falls...
A cliff diver positions herself on a cliff that angles downwards towards the edge. The length of the top of the cliff is 48.0 m and the angle of the cliff is θ = 19.0° below the horizontal. The cliff diver runs towards the edge of the cliff with a constant speed, and reaches the edge of the cliff in a time of 6.30 s. After running straight off the edge of the cliff (without jumping up), the diver falls...
A student stands at the edge of a ciff and throws a stone horizontally over the edge with a speed of o -19.5 m/s The clif is h 74.0 m above a fat, horizontal beach as shown in the figure. (a) What are the coordinates of the initial position of the stone? Yo 740m (b) What are the components of the initial velocity? mys 0y mýs (c) Write the equations for the x- and y-components of the velocity of the...
Figure P4.12 13. A student stands at the edge of a GP cliff and throws a stone horizon- tally over the edge with a speed of v; = 18.0 m/s. The cliff is h = 50.0 m above a body of water as shown in Figure P4.13. (a) What h are the coordinates of the initial g position of the stone? (b) What are the components of the initial velocity of the stone? (c) What is the appropriate analysis model...
A large building has an inclined roof. The length of the roof is 45.5 m and the angle of the roof is 20.0° below horizontal. A worker on the roof lets go of a hammer from the peak of the roof. Starting from rest, it slides down the entire length of the roof with a constant acceleration of 3.35 m/s2. After leaving the edge of the roof, it falls a vertical distance of 28.0 m before hitting the ground. (a)...
6. An astronaut ona distant planet wants to determine its acceleration due to gravity. The astronaut throws a rock straight up with a velocity of +15 m/s and measures a time of 20.0 s before the rock returns to his hand. What is the acceleration (magnitude and direction) due to gravity on this planet? See Diagram below: 20.0s v,15 m/s Show your work below: 7. Problem using vectors: A sailboat sails for 1 hr at 4 km/hr (relative to the...