A mass m = 5.0 kg is attached to a spring and allowed to hang in...
A mass m = 5.0 kg is attached to a spring and allowed to hang in the Earth's gravitational field. The spring stretches 3.5 cm before it reaches its equilibrium position. If allowed to oscillate, what would be its frequency?
Homework Answers
An object of mass 7.4 kg is attached to an ideal massless spring and allowed to...
An object of mass 7.4 kg is attached to an ideal massless spring and allowed to hang in the Earth's gravitational field. The spring stretches 7.8 cm before it reaches its equilibrium position. If this system is allowed to oscillate, what will be its frequency? (Give your answer to the nearest 0.1 Hz)
An object of mass 8.0 kg is attached to an ideal massless spring and allowed to...
An object of mass 8.0 kg is attached to an ideal massless spring and allowed to hang in the Earth's gravitational field. The spring stretches 7.7 cm before it reaches its equilibrium position. If this system is allowed to oscillate, what will be its frequency? (Give your answer to the nearest 0.1 Hz)
22 23 m object of mass 8.0 kg is attached to an ideal massless spring and...
22 23
m object of mass 8.0 kg is attached to an ideal massless spring and allowed to hang in the earth's gravitational field. The spring stretches 3.6 cm before it reaches its equilibrium position. this system is allowed to oscillate, what will be its frequency? A) 2.6 Hz B) 0.0045 Hz C) 0.67 HZ D ) 16 Hz E) 2.1 Hz 23) When a weight is hanging from a light vertical string, the speed of pulses on the string...
A block with mass 5.0 kg is attached to a horizontal spring with spring constant 300.0...
A block with mass 5.0 kg is attached to a horizontal spring with spring constant 300.0 N/m. If the block is initially pulled out a distance (x) cm and then released, and its velocity when it first reaches the equilibrium point is 0.51 m/s, find x.
A spring with spring constant 20.0 N/m is attached to a wall on one end, and...
A spring with spring constant 20.0 N/m is attached to a wall on one end, and a 4.00 kg block on the other end. The block is displaced 25.0 cm from its equilibrium position, released, and allowed to oscillate. Determine a) the frequency of the oscillation, b) the period, and c) the speed of the block when it is 12.0 cm from the equilibrium position.
A spring of spring constant k=261 N/m is attached to a block of mass 1.38 kg...
A spring of spring constant k=261 N/m is attached to a block of mass 1.38 kg and stretched horizontally to a position 15.0 cm from the springs equilibrium position. The spring and mass are released and oscillate in simple harmonic motion across a frictionless horizontal surface. What is the maximum speed obtained by the mass? m/s
A spring is hung vertically, and an object of mass m = 1 kg attached at...
A spring is hung vertically, and an object of mass m = 1 kg attached at lower end stretches the spring to position xı= 20 cm. When the mass increases to my =1.5 kg the spring stretches to new position x2 = 33 cm. What is the period of the spring-mass system when a mass of 2 kg attached to it? Hint, use x1, X2 , m,,mto find spring constant k and use the value of k to find the...
A block of mass m = 2.1 kg is attached to a single spring of spring...
A block of mass m = 2.1 kg is attached to a single spring of spring constant k = 4.3 and allowed to oscillate on a horizontal, frictionless surface while restricted to move in the x-direction. The equilibrium position of the block is x = 0m. At time t = 0s the mass is at position x =-0.7m and moving with x-component of velocity vx-1.79. what is the x- component of velocity at time t = 5.3s? Answer in meters...
A block of mass m = 3.5 kg is attached to a spring with spring constant...
A block of mass m = 3.5 kg is attached to a spring with spring constant k = 520 N/m. It is initially at rest on an inclined plane that is at an angle of θ = 21° with respect to the horizontal, and the coefficient of kinetic friction between the block and the plane is μk = 0.16. In the initial position, where the spring is compressed by a distance of d = 0.14 m, the mass is at...
Hang a 0.200 kg block off of a spring. PHY 202 CHAPTER #11 - PRACTICE PROBLEM...
Hang a 0.200 kg block off of a
spring.
PHY 202 CHAPTER #11 - PRACTICE PROBLEM #1 VERTICAL SPRING Y_O new y_0 F = -kx Hang a 0.200 kg block off of a spring. a.) The spring stretches 1.09 cm from its equilibrium point. What is the spring constant? ANS: 1.80 x 102 N/m E = KA? b.) Pull the block a further 1.60 cm down. The block will oscillate with what amplitude, and what total energy? ANS: 1.60 cm,...
An object of mass 8.0 kg is attached to an ideal massless spring and allowed to hang in the Earth's gravitational field. The spring stretches 7.7 cm before it reaches its equilibrium position. If this system is allowed to oscillate, what will be its frequency? (Give your answer to the nearest 0.1 Hz)
22 23
m object of mass 8.0 kg is attached to an ideal massless spring and allowed to hang in the earth's gravitational field. The spring stretches 3.6 cm before it reaches its equilibrium position. this system is allowed to oscillate, what will be its frequency? A) 2.6 Hz B) 0.0045 Hz C) 0.67 HZ D ) 16 Hz E) 2.1 Hz 23) When a weight is hanging from a light vertical string, the speed of pulses on the string...
A spring is hung vertically, and an object of mass m = 1 kg attached at lower end stretches the spring to position xı= 20 cm. When the mass increases to my =1.5 kg the spring stretches to new position x2 = 33 cm. What is the period of the spring-mass system when a mass of 2 kg attached to it? Hint, use x1, X2 , m,,mto find spring constant k and use the value of k to find the...
A block of mass m = 2.1 kg is attached to a single spring of spring constant k = 4.3 and allowed to oscillate on a horizontal, frictionless surface while restricted to move in the x-direction. The equilibrium position of the block is x = 0m. At time t = 0s the mass is at position x =-0.7m and moving with x-component of velocity vx-1.79. what is the x- component of velocity at time t = 5.3s? Answer in meters...
Hang a 0.200 kg block off of a
spring.
PHY 202 CHAPTER #11 - PRACTICE PROBLEM #1 VERTICAL SPRING Y_O new y_0 F = -kx Hang a 0.200 kg block off of a spring. a.) The spring stretches 1.09 cm from its equilibrium point. What is the spring constant? ANS: 1.80 x 102 N/m E = KA? b.) Pull the block a further 1.60 cm down. The block will oscillate with what amplitude, and what total energy? ANS: 1.60 cm,...
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