Quiz 2-2-1-03
which is swinging at a constant rate of 5 A 0.5'g ball is tied to a rope or length 1m, in a circle about point A on a horizontal plane. Find the tension in the rope?
which is swinging at a constant rate of 5 A 0.5'g ball is tied to a rope or length 1m, in a circle about point A on a horizontal plane
A student is swinging a ball on a string overhead in a horizontal plane. The string initially has length ?0 and the ball is moving with an initial speed ?0. The student decides to see how fast they can spin the ball, so they begin moving it faster and faster with a constant tangential acceleration ?? . However, they know that the string is close to breaking, so they decide to keep letting the string get longer and longer in...
A mass m = 5 kg is tied on one end of a rope and is forced to execute a circle on a vertical plane so that in completes one revolution every second. If the maximum tension that the rope can withstand is 1000 N, find the maximum length that the rope can have without breaking. Use g = 10 m/s2.
DQuestion 5 1 pts A simple harmonic oscillator at the point x-0 generates a wave on a horizontal rope. The oscillator operates at a frequency of 40.0 Hz and with an amplitude of 3.00 cm. The rope has a linear mass density of 50.0 g/m, and is stretched with a tension of 5.00 N. Find the maximum transverse acceleration of points on the rope, in m/s? Sample submission: 1230 Note: your answer should be much larger than g. which is...
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An object with weight W is dragged along a horizontal plane by a force acting along a rope attached to the object. If the rape makes an angle with the plane, then the magnitude of the force is F= u sin() + cos(8) where u is a constant called the coefficient of friction. (a) Find the rate of change of F with respect to(0). - W( cos A-sin) (usin 0 + cos 0) df de- (b) When is this...
Question 1: Motion on a horizontal plane [25] On a horizontal plane, a force of 58 N in the horizontal direction acts on an object of mass 10 kg. (1) Find the magnitude of the normal force N acting on the object from the plane. (2) Neglecting friction, find the magnitude of the acceleration a of the object. (3) Assuming that the coefficient of friction between the object and the plane is 0.50, find the magnitude of the acceleration a...
The entire system shows here rotates at constant angular rate w,
and m1 is almost about to slip up the incline. The pulley is
“ideal” and the string supporting m2 has a length of 3.0 meters.
Each mass rotates in a horizontal circle, but with different
r-values, one of which is given. Draw a clear force diagram for
each mass, write down the appropriate force equations, and solve
them to find the tension (T) in the string, the normal force...
80 kg adventurer ties a rope of length L to a bridgs and falls off in s wing figure. The tension (in N) in the rope at the lowest point is ewn in the a) 2100 b) 2200 c) 2300 d) 2400 e) 2500 Block A with mass ma 2 kg traveling at u 10 mvs to the right collides with block B with mass mp 3 kg traveling at Un 5 m/s to the left. Afier the colision block...
A slender 9 lb rod can rotate in a vertical plane about a pivot at B. A spring of constant k-30 lb/ft and of unstretched length 6 in. is attached to the rod as shown. The rod is released from rest in the position shown. 1) Determine its angular velocity after the rod has rotated through 45.(1 point) 2) Determine the reaction force at pivot point B after the rod rotated through 45. (1 point) 24 in 5 in. 4...
1. Two sticky spheres of a mass 100 g each collide in vertical plane with velocities (3i - 1k) m/s and (2i + 5k) m/s respectively. After the collision the spheres continue to move together in the field of gravity and hit the ground in 5 seconds after the collision. Find altitude, at which the collision occurred and horizontal distance traveled by the spheres after the collision. 2. A 60 kg swimmer is floating in a pool holding grip of...
1. A uniform horizontal bar of length L = 2.0 m and weight 144 N is pinned to a vertical wall and supported by a thin wire that makes an angle of 0 = 150 with the horizontal. A mass M, with a weight of 302 N, can be moved anywhere along the bar. The wire can withstand a maximum tension of 573 N. What is the maximum possible distance from the wall at which mass M can be placed...