Consider a conical pendulum with a bob of mass m = 28.0 kg on a string...

Consider a conical pendulum with a bob of mass m = 28.0 kg on a string of length L = 7.00 m that makes an angle of θ = 4.00° with the vertical. a) Draw the direction of the acceleration of the ball b) What force(s) cause this acceleration? c) Determine the centripetal acceleration of the bob. d) Determine the speed of the ball.

Expert Solution

genius_generous answered 2 years ago

The figure shows a conical pendulum, in which the bob (the small object at the lower...

The figure shows a conical pendulum, in which the bob (the small object at the lower end of the cord) moves in a horizontal circle at constant speed. (The cord sweeps out a cone as the bob rotates.) The bob has a mass of 0.024 kg, the string has length L = 1.2 m and negligible mass, and the bob follows a circular path of circumference 1.2 m. What are (a) the tension in the string and (b) the period...

A pendulum consists of a ball of mass 3.0 kg on a string of length 4.0...

A pendulum consists of a ball of mass 3.0 kg on a string of length 4.0 m. The ball is pulled back untilits center has risen to a height of 0.80 m. The ball is released such that it strikes a 1.0 kg block at thebottom of its swing. The block comes to a rest after traveling 2.0 m across a surface withμk= 0.15.What is the speed of the ball right after the collision? Is the collision elastic?

Consider a pendulum consisting of a mass m in a gravitational field, with the (massless) pendulum...

Consider a pendulum consisting of a mass m in a gravitational field, with the (massless) pendulum arm being a spring of spring constant k and “resting length” b. The pendulum is confined to move in a plane as usual. Write the Lagrangian and find the equations of motion.

A pendulum consists of a stone with mass m swinging on a string of length L...

A pendulum consists of a stone with mass m swinging on a string of length L and negligible mass. The stone has a speed of v0 when it passes its lowest point. (a) Write an expression for the speed of the stone when the string is at some angle theta with the vertical. (b) What is the greatest angle with the vertical that the string will reach during the stone's motion? (c) If the potential energy of the pendulum-Earth system...

Q1: Consider the simple pendulum system, the length of the pendulum is ‘l’ and mass ‘m’...

Q1: Consider the simple pendulum system, the length of the pendulum is ‘l’ and mass ‘m’ has simple harmonic motion. Find the equation of motion using 2 approaches: Newtonian and Lagrangian. What do you conclude?

A pendulum consists of a 3.0 kg stone swinging on a 4.4 m string of negligible...

A pendulum consists of a 3.0 kg stone swinging on a 4.4 m string of negligible mass. The stone has a speed of 8.1 m/s when it passes its lowest point. (a) What is the speed when the string is at 58 ˚ to the vertical? (b) What is the greatest angle with the vertical that the string will reach during the stone's motion? (c) If the potential energy of the pendulum-Earth system is taken to be zero at the...

A simple pendulum of length 0.50 m has a 0.30-kg bob. At t = 0, the...

A simple pendulum of length 0.50 m has a 0.30-kg bob. At t = 0, the bob passes through the lowest position in its motion, and at this instant it has a horizontal speed of 0.39 m/s . A. What is the maximum angular displacement ϑmax away from vertical that the pendulum reaches? B. What is the magnitude of the bob's linear speed v when it has angular displacement ϑmax/2?

Explain the motion of the conical pendulum.

A simple pendulum has a mass of 0.550 kg and a length of 2.00 m. It...

A simple pendulum has a mass of 0.550 kg and a length of 2.00 m. It is displaced through an angle of 11.0

A simple pendulum has a mass of 0.650 kg and a length of 7.00 m. It...

A simple pendulum has a mass of 0.650 kg and a length of 7.00 m. It is displaced through an angle of 14.0° and then released. Using the analysis model of a particle in simple harmonic motion, calculate the following. (Give your answer to the thousandths place.) (a) What is the maximum speed of the bob? (b) What is the maximum angular acceleration of the bob? (rad/s2) (c) What is the maximum restoring force of the bob? (d) Solve parts...

Question