10. An object of mass m is tied to a string of length L and a...

Question

Question

Answer 1

Answer #1

L-h าร่ uj

Do comment in case any doubt, will reply for sure . Goodluck

Answer 2

Similar Homework Help Questions

A rock of mass 13 kg is tied to a string of length 2.5 m, with...

A rock of mass 13 kg is tied to a string of length 2.5 m, with the other end of the string fastened to the ceiling of a tall room. While hanging vertically, the rock is given an initial horizontal velocity of 2.1 m/s. How high will the rock swing? Express your answer in terms of the angle θ that the string makes with the vertical when the rock is at its highest point.
Mass in Cone. Masses A and each of mass m, are attached at the ends of a string that runs through...

Please Solve using angular momentum Mass in Cone. Masses A and each of mass m, are attached at the ends of a string that runs through the small hole in the center of a cone, for which θ-60° (a) If ball B is hanging a constant distance below the cone and ball A is moving in a horizontal cir- cle with constant speed vo, de- termine, as a function of vo and Neglect friction between A and the cone and...
This mass (m) on a string (of length L) is moving in a horizontal circle. The...

This mass (m) on a string (of length L) is moving in a horizontal circle. The string makes an angle of 60 degrees with the vertical. (Express your answers in terms of m, L, g, and theta) Find the tension in the string. Find the speed of the mass.

A mass m = 7.9 kg is suspended from a string of length L = 1.15...

A mass m = 7.9 kg is suspended from a string of length L = 1.15 m. It revolves in a horizontal circle (see Figure). The tangential speed of the mass is 2.80 m/s. What is the angle θ between the string and the vertical (in degrees)?
In the apparatus shown above, one end of a string of length L is attached to a block of mass M

In the apparatus shown above, one end of a string of length L is attached to a block of mass M and the other end is connected to the axle of a motor that rotates, causing the block to move in a circle of radius R at a constant speed vT such that the string makes an angle θ with the vertical. A student wants to use the apparatus to make measurements and create a graph that can be used...
A mass M = 4 kg attached to a string of length L = 2.0 m...

A mass M = 4 kg attached to a string of length L = 2.0 m swings in a horizontal circle with a speed V. The string maintains a constant angle theta θ= 46.5 degrees with the vertical line through the pivot point as it swings. What is the speed V required to make this motion possible?

5) A mass m is connected to one end of a massless string of length L....

5) A mass m is connected to one end of a massless string of length L. The other end of the string is tied to a tall vertical pole of height H (much taller than L). The string is wound around the pole so that each wrap makes a small circle of the string and the mass touches the top of the pole. The mass is let go and the string begins to unwind. What is the angle o that...
The ball has a mass m and is attached to the cord of length l. The cord is tied at the top to a...

The ball has a mass \(m\) and is attached to the cord of length \(I\). The cord is tied at the top to a swivel and the ball is given a velocity \(\mathbf{v}_{0}\). Show that the angle \(\theta\) which the cord makes with the vertical as the ball travels around the circular path must satisfy the equation tan \(\theta \sin \theta=v_{0}^{2} / g l\). Neglect air resistance and the size of the ball.
A stone is tied to a string (length L = 1.10 m) and whirled in a...

A stone is tied to a string (length L = 1.10 m) and whirled in a circle at the same constant speed in two different ways. First, the circle is horizontal, and the string is nearly parallel to the ground. Next, the circle is vertical. In the vertical case, the maximum tension in the string is 15.0% larger than the tension that exists when the circle is horizontal. step 6: Draw the free-body diagram for the forces acting on the...

A swig sweat of mass M is connected to a fixed point P by a massless...

A swig sweat of mass M is connected to a fixed point P by a massless cord of length L. A child also of mass M sits on the seats and begins to swing with zero velocity at a position at which the cord makes a 60 angle with the verticle shown in figure 1. The swing continues down until the cord is exactly vertical at which time the child jumps off in a horizontal direction. The swing continues in...