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Question 7 (5 marks): At the instant shown in figure below, the block has a velocity...
Question 7 (5 marks): At the instant shown in figure below, the block has a velocity...
Question 7 (5 marks): At the instant shown in figure below, the block has a velocity of 8 ft s-1 a) Find the maximum value of the deflection of the spring. b) Find the distance I through which the block travels, after rebound, before it comes to rest. 30 in 8 lb/in M0.15
1) At the instant shown, the system is at rest and the k=4 kipn spring is...
1) At the instant shown, the system is at rest and the k=4 kipn spring is compressed in. Determine, (a) the velocity of block A after block B has moved in (1) (b) the maximum velocity of block B (c) the maximum extension in the spring 2 200 lb 4 kip/ft 350 lb 30°
At the instant shown the 100-lb block A is moving down the plane at 7 ft/s...
At the instant shown the 100-lb block A is moving down the plane at 7 ft/s while being attached to the 50-lb block B. The coefficient of kinetic friction between the block and the incline is μk = 0.25. Neglect the mass of the pulleys and cables. (Figure 1) Determine the acceleration of A before it stops. Express your answer to three significant figures and include the appropriate units. Determine the distance A slides before it stops. Express your answer...
At the instant shown the 100-lb block A is moving down the plane at 6 ft/s...
At the instant shown the
100-lb block A is moving down the plane at 6 ft/s while being
attached to the 50-lb block B.
At the instant shown the 100-lb block A is moving down the plane at 6 ft/s while being attached to the 50-lb block B. The coefficient of kinetic friction between the block and the incline is uk = 0.3. Neglect the mass of the pulleys and cables. (Figure 1) Part A Determine the acceleration of A...
Dynamics: 17. For the system shown, determine the velocity of block B after it has dropped...
Dynamics:
17. For the system shown, determine the velocity of block B after it has dropped 1.75 ft. The system is at rest when weight B is dropped and the spring is at its free length. (i.e. unloaded) k = 60 lb/ft 4.0 ft Dia le 20 slug-ft B 2.0 ft Dia 45 lb
17. For the system shown, determine the velocity of block B after it has dropped 1.75 ft. The system is at rest when weight B is...
A block whose mass is m shown in the following figure, the angle of the incline...
A block whose mass is m shown in the following figure, the angle of the incline being 6-30°. The block comes to rest momentarily after it has compressed the spring by 5 cm. Assume that the contact benween the block and the incline sunface is frictionless 2. 3 kg is released from rest at the top of the incline as TR (a) If the distance d that the block moved down the incline is 1 m at this [10 marks]...
4. Calculate the velocity of the block shown in Figure 3 after the block moves a...
4. Calculate the velocity of the block shown in Figure 3 after the block moves a distance of 0.1 m. Use work-energy principle. The block is at rest condition before the application of 10 N force. 10 N 45 2 kg uk 0.2 Figure 3
A 10-lb box is sliding over a rough surface (Uk=0.15) with a velocity of 10 ft/s...
A 10-lb box is sliding over a rough surface (Uk=0.15) with a velocity of 10 ft/s and at the given instant the box is 5 ft away from the plate. The plate is smooth, weights 5 lb and is supported by an unstretched spring of stiffness 400 lb/ft. If the coefficient of restitution between the box and the plate is 0.6, determine the following: a. Velocity of the box just before hitting the plate. b. Velocity of the plate after...
A block of mass m is placed in a smooth-bored spring gun at the bottom of an inclined plane
A block of mass m is placed in a smooth-bored spring gun at the bottom of an inclined plane, such that it compresses the spring by an amount xc, as shown in the figure below. The spring has a spring constant k. The incline makes an angle θ with the horizontal and the coefficient of friction between the block and the inclined plane is μ. The block is released, exits the muzzle of the gun, and slides up the incline...
In the figure below, a 4.0 kg block is accelerated from rest by a compressed spring...
In the figure below, a 4.0 kg block is accelerated from rest by a compressed spring of spring constant 600 N/m. The block leaves the spring at the spring's relaxed length and then travels over a horizontal floor with a coefficient of kinetic friction uk= 0.30.The frictional force stops the block in the distance of D = 8.0 m. -- No friction a) Find the increase in the thermal energy of the block-floor system b) What is the original compression...
Question 7 (5 marks): At the instant shown in figure below, the block has a velocity of 8 ft s-1 a) Find the maximum value of the deflection of the spring. b) Find the distance I through which the block travels, after rebound, before it comes to rest. 30 in 8 lb/in M0.15
1) At the instant shown, the system is at rest and the k=4 kipn spring is compressed in. Determine, (a) the velocity of block A after block B has moved in (1) (b) the maximum velocity of block B (c) the maximum extension in the spring 2 200 lb 4 kip/ft 350 lb 30°
At the instant shown the
100-lb block A is moving down the plane at 6 ft/s while being
attached to the 50-lb block B.
At the instant shown the 100-lb block A is moving down the plane at 6 ft/s while being attached to the 50-lb block B. The coefficient of kinetic friction between the block and the incline is uk = 0.3. Neglect the mass of the pulleys and cables. (Figure 1) Part A Determine the acceleration of A...
Dynamics:
17. For the system shown, determine the velocity of block B after it has dropped 1.75 ft. The system is at rest when weight B is dropped and the spring is at its free length. (i.e. unloaded) k = 60 lb/ft 4.0 ft Dia le 20 slug-ft B 2.0 ft Dia 45 lb
17. For the system shown, determine the velocity of block B after it has dropped 1.75 ft. The system is at rest when weight B is...
A block whose mass is m shown in the following figure, the angle of the incline being 6-30°. The block comes to rest momentarily after it has compressed the spring by 5 cm. Assume that the contact benween the block and the incline sunface is frictionless 2. 3 kg is released from rest at the top of the incline as TR (a) If the distance d that the block moved down the incline is 1 m at this [10 marks]...
4. Calculate the velocity of the block shown in Figure 3 after the block moves a distance of 0.1 m. Use work-energy principle. The block is at rest condition before the application of 10 N force. 10 N 45 2 kg uk 0.2 Figure 3
A 10-lb box is sliding over a rough surface (Uk=0.15) with a velocity of 10 ft/s and at the given instant the box is 5 ft away from the plate. The plate is smooth, weights 5 lb and is supported by an unstretched spring of stiffness 400 lb/ft. If the coefficient of restitution between the box and the plate is 0.6, determine the following: a. Velocity of the box just before hitting the plate. b. Velocity of the plate after...
In the figure below, a 4.0 kg block is accelerated from rest by a compressed spring of spring constant 600 N/m. The block leaves the spring at the spring's relaxed length and then travels over a horizontal floor with a coefficient of kinetic friction uk= 0.30.The frictional force stops the block in the distance of D = 8.0 m. -- No friction a) Find the increase in the thermal energy of the block-floor system b) What is the original compression...
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