1. The "stone" A used in the sport of curling slides over the ice track and strikes another "stone" B as shown. Each "stone" is smooth and has a weight of 47 lb, and the coefficient of restitution between the "stones" is e = 0.8.Initially A has a velocity of 7.7 ft/s and B is at rest. Neglect friction.
a. Determine the speed of A just after collision.
b. Determine the speed of B just after collision.
1. The "stone" A used in the sport of curling slides over the ice track and...
PartA The "stone" A used in the sport of curling slides over the ice track and strikes another "stone" B as shown. Each "stone" is smooth and has a weight of 47 lb and the coefficient of restitution between the "stones" is e-0.8. Initially A has a velocity of 7.9 ft/s and B is at rest. Neglect friction. (Figure 1) Determine the speed of A just after collision. Express your answer to three significant figures and include the appropriate units....
The stone A used in the sport of curling slides over the ice track and strikes another stone B as shown. Initially A has a velocity (vA)i 8 fs and B is at rest. If each stone is smooth and the coefficient of restitution between the stones is e - 0.75, determine their speeds just after collision. Neglect friction. 3 ft 30° 8 ft /s
Problem 15.88 3 of 5 The "stone" A used in the sport of curling slides over the ice track and strikes another "stone" B as shown. Each "stone" is smooth and has a weight of 47 lb, and the coefficient of restitution between the "stone" is e = 0.8 Suppose that (vA) -8.2 ft/s. (Figure 1) ▼ Part A Determine the time required just after collision for B to slide off the runway. This requires the horizontal component of displacement...
4) A curling stone, with a mass of 20.0 kg, slides across the ice at 1.50 m/s. It collides head on with a stationary 0.160-kg hockey puck. After the collision, the puck’s speed is 2.50 m/s. What is the stone’s final velocity?
Sliding on the Ice In the winter sport of curling, players give a 20 kg stone a push across a sheet of ice. The Slone moves approximately 40 m before coming to rest. The final position of the stone, in principle, onlyndepends on the initial speed at which it is launched and the force of friction between the ice and the stone, but team members can use brooms to sweep the ice in front of the stone to adjust its...
A stone used in the sport of curling has a mass of 18.0 kg and is initially at rest, sitting on a Flat ice surface. It is pushed with a constant force of magnitude 24.0N over a distance of 4.00 m. (You may assume that any friction between the stone and the ice is negligible.) (a) (i) What is the acceleration of the stone and what is the work done in accelerating it? (ii) By considering the conservation of energy...
In the winter sport of curling, players give a 20kg stone a push across a sheet of ice. The stone moves approximately 40m before coming to rest. The final position of the stone in principle only depends on the initial speed at which it is launched and the force of friction between the ice and the stone, but team members can use brooms to sweep the ice in front of the stone to adjust its speed and trajectory a bit;...
Hydrology question 4. (20 pts) Curling is clearly the most exciting sport on Earth. Let's pretend that the bottoms of curling stones are perfectly flat, round, and 12 cm in diameter. Let's also assume that the layer of water overlying the ice is 0.5 mm thick. There probably isn't pressure melting, but we will still assume the water is 4°C, at which temperature the dynamic viscosity is 0.0015 N-s/m2. a) What force must be applied to the side of the...
A block of mass m 2.20 kg slides down an incline which is 3.60 m high. At the bottom, it strikes block mass M 7.00 kg which at rest on a horizontal surface, as 3.60 m shown (assume a smooth transition to the bottom of the incline). If the collision is elastic, and friction can of mass m 2.20 kg just before its strikes the block be ignored, determine (a) the speed of the block of mass M-7.00 kg. (b)...
A The length of the roller coaster track is 100 ft and the elevation change of the track from point A, at the bottom of the track, to point B, at the top of the track is 20 ft. The roller coaster car, including the passengers, weights 1,200 lb, and the force of friction between the car and the tracks is 20 lb. The speed at point A is 45 ft/s. Determine the speed at point B. B Solve the...