A pendulum consists of a 2.5-kg bob attached to a light 1.2 m-long string. While hanging...
A pendulum consists of a 2.2-kg bob attached to a light 2.0-m-long string. While hanging at rest with the string vertical, the bob is struck a sharp horizontal blow, giving it a horizontal velocity of 4.5 m/s. At the instant the string makes an angle of 27 degree with the vertical, calculate the following: (a) the speed m/s (b) the gravitational potential energy (relative to its value is at the lowest point) J (c) the tension in the string? N...
A pendulum consists of a 1.9-kg bob attached to a light 2.3-m-long string. While hanging at rest with the string vertical, the bob is struck a sharp horizontal blow, giving it a horizontal velocity of 4.1 m/s. At the instant the string makes an angle of 30° with the vertical, calculate the following: speed= 3.28 m/s gravitational potential energy is 5.739 J what is the tension in the string in Newtons? what is the angle of the string with the...
A pendulum consists of a 1.7-kg bob attached to a light 2.6-m-long string. While hanging at rest with the string vertical, the bob is struck a sharp horizontal blow, giving it a horizontal velocity of 5.0 m/s. At the instant the string makes an angle of 28° with the vertical, calculate the following (a) the speed m/s (b) the gravitational potential energy (relative to its value is at the lowest point) (c) the tension in the string? (d) What is...
A pendulum consists of a 2.2 kg bob attached to a 2.8 meter long string. The bob has a velocity of 4.7 m/s as it passes the bottom. Considering the point where the string makes a 29° angle with the vertical, determine the tension in the string. Could you please double check my solution? I think the solution is F= mg + mgh F = (2.2) (9.8) + (2.2) (9.8) (0.36) F 29.32 or F = mg +0.5 m (V^2)...
A 2.00 kg pendulum bob on a string 1.50 m long, is released with a velocity of 3.00 m/s when the support string makes an angle of 45.0 degrees with the vertical. What is the angle with the vertical the bob makes at the highest point of its motion?
A conical pendulum consists of a mass hanging from a string while moving in a horizontal circle of radius r (see Figure 1; the blue arrow indicating velocity is pointing “into” the page, not up.). If the mass moves at constant speed 1.3 m/s and the angle the string does with the vertical is θ = 12◦ , what is the radius r of the circle? (Hint: This is similar to the “hanging chairs” problem from class.)
Q2) A simple pendulum consists of a ball of mass 4.0 kg attached to the ceiling by a very light wire 3 of length 2.0 m. Att from rest. 0s, the pendulum is displaced to the right by an angle of 8 and released a) What is the period of oscillation? rn b) What is the magnitude of the force on the ball tangential or perpendicular) to the string at t os c) What is the maximum speed of the...
Consider a conical pendulum with a bob of mass m = 75.0 kg on a string of length L = 10.0 m that makes an angle of 0 = 7.00° with the vertical. (Consider +î to be towards the center of the circular path and +ġ to be upward.) m (a) Determine the horizontal and vertical components of the force exerted by the string on the pendulum.
A pendulum bob with a mass of 0.370 kg is attached to a 1.5 m long string as shown. As the pendulum bob swings from point A, where the angle 0 = 36.0°, to point B at the bottom of its arc, determine the change in the gravitational potential energy of the pendulum bob-earth system. J 1.5 m B
A pendulum bob with a mass of 0.370 kg is attached to a 1.5 m long string as shown. As the pendulum bob swings from point A, where the angle 0 = 36.0°, to point B at the bottom of its arc, determine the change in the gravitational potential energy of the pendulum bob-earth system. به 1.5 m B