A spring-cart system on a frictionless surface and a simple pendulum both have the same period...
A spring-cart system on a frictionless surface and a simple pendulum both have the same period near Earth’s surface. What happens to the period of each motion when both systems are in orbit inside the International Space Station? (Assume zero gravity in the International space Station)
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A spring-cart system on a frictionless surface and a simple
pendulum both have the same period...
A spring-cart system on a frictionless surface and a simple pendulum both have the same period...
A spring-cart system on a frictionless surface and a simple pendulum both have the same period near Earth’s surface. What happens to the period of each motion when both systems are in orbit inside the International Space Station? (Assume zero gravity in the International space Station). Your answer should not be more than 70 words. Please be concise
mass vibrates on an ideal spring as illustrated below. The total energy of the spring is...
mass vibrates on an ideal spring as illustrated below. The total energy of the spring is 100 J. What is the kinetic energy of the mass at point P, halfway between the equilibrium point and the amplitude? P Equilibrium A. 50 J B. 200 J C. 75 J D. 100 J E. 25 J When a weight Wis hanging from a light vertical string, the speed of pulses on the string is v. If a second weight Wis added without...
A mass vibrates on an ideal spring as illustrated below. The total energy of the spring...
A mass vibrates on an ideal spring as illustrated below. The total energy of the spring is 100 J. What is the kinetic energy of the mass at point P, halfway between the equilibrium point and the amplitude? P Equilibrium A. 50 J B. 200 J C. 75 J D. 100 J E. 25 J When a weight Wis hanging from a light vertical string, the speed of pulses on the string is v. If a second weight Wis added...
Question 1 10 pts A mass of 0.35 kg slides along a frictionless horizontal surface and...
Question 1 10 pts A mass of 0.35 kg slides along a frictionless horizontal surface and undergoes simple harmonic motion when attached to a spring with spring constant 18 N/m. If the same mass is hung from a string and used as a simple pendulum, what must be the length of the string in meters so that the pendulum has the same period as the mass-spring system? O 0.78 O 0.48 0.19 O 0.15
Question 2 10 pts A mass of 0.35 kg slides along a frictionless horizontal surface and...
Question 2 10 pts A mass of 0.35 kg slides along a frictionless horizontal surface and undergoes simple harmonic motion when attached to a spring with spring constant 18 N/m. If the same mass is hung from a string and used as a simple pendulum, what must be the length of the string in meters so that the pendulum has the same period as the mass-spring system? O 0.19 O 0.78 O 0.48 O 0.15 Next >
Exercise 11: Simple Harmonic Motion 1. A spring-mass system oscillates with a frequency of 10 Hz...
Exercise 11: Simple Harmonic Motion 1. A spring-mass system oscillates with a frequency of 10 Hz when the mass is equal to 0.50 kg. What is the stiffness of the spring? With the same spring, what would the mass need to be to double the frequency? 2. A pendulum swings with a period of 1.50 seconds when the acceleration due to gravity is equal to 9.80 m/s? What is the length of the pendulum? How would this period change if...
A horizontal mass-spring system consists of a 2 kg mass moving on a frictionless surface attached...
A horizontal mass-spring system consists of a 2 kg mass moving on a frictionless surface attached to a spring. The other end of the spring is attached to a wall. The mass is pulled and released. The resultant simple harmonic motion has a period of 5 s and it is observed that the maximum velocity of the mass is 0.3 m/s. a) Calculate the spring constant of the spring. (b) Calculate the amplitude of the motion. Sometime later, when the...
Consider a simple pendulum of length / and mass m placed in a rail-road cart that...
Consider a simple pendulum of length / and mass m placed in a rail-road cart that has constant acceleration a in the positive x-direction. (Hint: This means that suspension point of the pendulum moves with acceleration a, this needs to be accounted for when considering motion of the pendulum) a) (11 pts.) Find the Lagrangian function of this pendulum. b) (11 pts.) Obtain Lagrange's equations of motion for this pendulum. c) (11 pts.) Find the Hamiltonian function of this pendulum....
A cart at the end of a spring undergoes simple harmonic motion of amplitude A =...
A cart at the end of a spring undergoes simple harmonic motion of amplitude A = 10 cm and frequency 5.0 Hz. Assume that the cart is at x=−A when t=0. a. Determine the period of vibration. b. Write an expression for the cart's position as a function of time. c. Determine the position of the cart at 0.050 s. d. Determine the position of the cart at 0.100 s.
Two different simple harmonic oscillators have the same natural frequency (f=1.70 Hz) when they are on...
Two different simple harmonic oscillators have the same natural frequency (f=1.70 Hz) when they are on the surface of the Earth. The first oscillator is a vertical spring and mass, the second is a pendulum. If both systems are moved to the surface of the moon (g=1.67 m/s2), what is the new frequency of the vertical spring and mass? Tries 0/20 Calculate the new frequency of the pendulum.
A mass vibrates on an ideal spring as illustrated below. The total energy of the spring is 100 J. What is the kinetic energy of the mass at point P, halfway between the equilibrium point and the amplitude? P Equilibrium A. 50 J B. 200 J C. 75 J D. 100 J E. 25 J When a weight Wis hanging from a light vertical string, the speed of pulses on the string is v. If a second weight Wis added...
Question 1 10 pts A mass of 0.35 kg slides along a frictionless horizontal surface and undergoes simple harmonic motion when attached to a spring with spring constant 18 N/m. If the same mass is hung from a string and used as a simple pendulum, what must be the length of the string in meters so that the pendulum has the same period as the mass-spring system? O 0.78 O 0.48 0.19 O 0.15
Question 2 10 pts A mass of 0.35 kg slides along a frictionless horizontal surface and undergoes simple harmonic motion when attached to a spring with spring constant 18 N/m. If the same mass is hung from a string and used as a simple pendulum, what must be the length of the string in meters so that the pendulum has the same period as the mass-spring system? O 0.19 O 0.78 O 0.48 O 0.15 Next >
Exercise 11: Simple Harmonic Motion 1. A spring-mass system oscillates with a frequency of 10 Hz when the mass is equal to 0.50 kg. What is the stiffness of the spring? With the same spring, what would the mass need to be to double the frequency? 2. A pendulum swings with a period of 1.50 seconds when the acceleration due to gravity is equal to 9.80 m/s? What is the length of the pendulum? How would this period change if...
Consider a simple pendulum of length / and mass m placed in a rail-road cart that has constant acceleration a in the positive x-direction. (Hint: This means that suspension point of the pendulum moves with acceleration a, this needs to be accounted for when considering motion of the pendulum) a) (11 pts.) Find the Lagrangian function of this pendulum. b) (11 pts.) Obtain Lagrange's equations of motion for this pendulum. c) (11 pts.) Find the Hamiltonian function of this pendulum....
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