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If the 2 kg block passes over the top B of the circular portion of the...
Chapter 3, Problem 3/037 The small 0.5-kg block slides with a small amount of friction on...
Chapter 3, Problem 3/037 The small 0.5-kg block slides with a small amount of friction on the circular path of radius 2.5 m in the vertical plane. If the speed of the block is 4.3 m/s as it passes point A and 3.1 m/s as it passes point B, determine the normal force exerted on the block by the surface at each of these two locations. 2.5 m B Answers: NA = Ng = Click if you would like to...
Suppose a 1,850-kg car passes over a bump in a roadway that follows the arc of...
Suppose a 1,850-kg car passes over a bump in a roadway that follows the arc of a circle of radius 22.0 m as in the figure shown below. A car traveling to the right over a hump on the road at a velocity vector v. (a) What force does the road exert on the car as the car passes the highest point of the bump if the car travels at 8.30 m/s? (Neglect any friction that may occur.) magnitude__________ kN...
A small block with mass 0.0375 kg slides in a vertical circle of radius 0.600 m...
A small block with mass 0.0375 kg slides in a vertical circle of radius 0.600 m on the inside of a circular track. During one of the revolutions of the block, when the block is at the bottom of its path, point A, the magnitude of the normal force exerted on the block by the track has magnitude 4.05 N . In this same revolution, when the block reaches the top of its path, point B, the magnitude of the...
A motorcycle has a constant speed of 25.5 m/s as it passes over the top of...
A motorcycle has a constant speed of 25.5 m/s as it passes over the top of a hill whose radius of curvature is 145 m. The mass of the motorcycle and driver is 328 kg. Find the magnitude of (a) the centripetal force and (b) the normal force that acts on the cycle.
A motorcycle has a constant speed of 20.0 m/s as it passes over the top of...
A motorcycle has a constant speed of 20.0 m/s as it passes over the top of a hill whose radius of curvature is 102 m. The mass of the motorcycle and driver is 318 kg. Find the magnitude of (a) the centripetal force and (b) the normal force that acts on the cycle.
A roller-coaster car has a mass of 1040 kg when fully loaded with passengers. As the...
A roller-coaster car has a mass of 1040 kg when fully loaded with passengers. As the car passes over the top of a circular hall of radius 18 m, its speed is not changing. (a) At the top of the hill, what is the normal force (using the negative for the downward direction) on the car from the track if the car's speed is v = 7.4 m/s? (b) What is if v = 17 m/s? Use g = 9.81...
take r ro be 1.0 m 1. A small block of mass 0.5 kg compresses a...
take r ro be 1.0 m
1. A small block of mass 0.5 kg compresses a spring (K 500 N/m) a distance of x 0.50 m. The block is released from rest and travels along a frictionless, horizontal surface until it reaches point A. After point A is moves along the circular path while experiencing an frictional force of magnitude 6.0 N. a) Calculate the speed when it reaches the top of the circular path. (Use work-energy methods to solve...
A 1100 kg car traveling at 20 m/s goes over a hill. At the top, the...
A 1100 kg car traveling at 20 m/s goes over a hill. At the top, the hill provides an upward normal force of 5600 N. (a) Assuming the hill has a circular profile, find the radius of curvature of the hill. (b) What is the maximum speed the car can go over the hill without ramping the car off the ground?
A small block with mass 0.0475 kg slides in a vertical circle of radius 0.0730 m...
A small block with mass 0.0475 kg slides in a vertical circle of radius 0.0730 m on the inside of a circular track. There is no friction between the track and the block. At the bottom of the block's path, the normal force the track exerts on the block has magnitude 3.70 N. What is the magnitude of the normal force that the track exerts on the block when it is at the top of its path?
A small block of mass 0.150 kg slides in a horizontal circular trajectory of radius 0.400...
A small block of mass 0.150 kg slides in a horizontal circular
trajectory of radius 0.400 m at constant speed along the inside of
a frictionless bowl (cross-section shown). The bowl’s surface makes
an angle of 25.0° with the horizontal.
5. Find the magnitude of the normal force acting on the
block.
6. Find the block’s speed.
please explain
(numbers 5-6) A small block of mass 0.150 kg slides in a horizontal circular trajectory of radius 0.400 m at constant...
Chapter 3, Problem 3/037 The small 0.5-kg block slides with a small amount of friction on the circular path of radius 2.5 m in the vertical plane. If the speed of the block is 4.3 m/s as it passes point A and 3.1 m/s as it passes point B, determine the normal force exerted on the block by the surface at each of these two locations. 2.5 m B Answers: NA = Ng = Click if you would like to...
A roller-coaster car has a mass of 1040 kg when fully loaded with passengers. As the car passes over the top of a circular hall of radius 18 m, its speed is not changing. (a) At the top of the hill, what is the normal force (using the negative for the downward direction) on the car from the track if the car's speed is v = 7.4 m/s? (b) What is if v = 17 m/s? Use g = 9.81...
take r ro be 1.0 m
1. A small block of mass 0.5 kg compresses a spring (K 500 N/m) a distance of x 0.50 m. The block is released from rest and travels along a frictionless, horizontal surface until it reaches point A. After point A is moves along the circular path while experiencing an frictional force of magnitude 6.0 N. a) Calculate the speed when it reaches the top of the circular path. (Use work-energy methods to solve...
A small block of mass 0.150 kg slides in a horizontal circular
trajectory of radius 0.400 m at constant speed along the inside of
a frictionless bowl (cross-section shown). The bowl’s surface makes
an angle of 25.0° with the horizontal.
5. Find the magnitude of the normal force acting on the
block.
6. Find the block’s speed.
please explain
(numbers 5-6) A small block of mass 0.150 kg slides in a horizontal circular trajectory of radius 0.400 m at constant...
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