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3. A block of a mass 500 g is connected to two springs as shown in...
1. Two sticky spheres of a mass 100 g each collide in vertical plane with velocities...
1. Two sticky spheres of a mass 100 g each collide in vertical plane with velocities (3i - 1k) m/s and (2i + 5k) m/s respectively. After the collision the spheres continue to move together in the field of gravity and hit the ground in 5 seconds after the collision. Find altitude, at which the collision occurred and horizontal distance traveled by the spheres after the collision. 2. A 60 kg swimmer is floating in a pool holding grip of...
A 223 g block connected to a light spring with a force constant of k =...
A 223 g block connected to a light spring with a force constant of k = 5 N/m is free to oscillate on a horizontal, frictionless surface. The block is displaced 3 cm from equilibrium and released from rest. a) Find the period of its motion. (Recall that the period, T, and frequency, f, are inverses of each other.) b) Determine the maximum acceleration of the block.
A mass of 500 grams is attached to two springs whose spring constants are k1=2 N/m...
A mass of 500 grams is attached to two springs whose spring constants are k1=2 N/m and k2 = 5 N/m, which are in turn attached to a wall. The system is on a horizontal frictionless surface. The system is displaced to the right and released. (a) What is the effective spring constant of the two springs in ”series”? Hint use Hooke’s law and the fact that the force required to displace the system is the same acting on each...
A block of mass 125 g is attached to a spring. When pulled away from equilibrium...
A block of mass 125 g is attached to a spring. When pulled away from equilibrium it oscillates with a frequency of 4.167 Hz. (a) What is the value of the spring constant for this spring? 85.68 N/m Correct: Your answer is correct. (b) You have a second block with a mass of 225 g. You want to attach it to a second spring so that it oscillates with the same frequency as the first block. What spring constant should...
An oscillator consists of a block of mass 420 g connected to a spring. When set...
An oscillator consists of a block of mass 420 g connected to a spring. When set into oscillation with amplitude 26 cm, the oscillator repeats its motion every 0.41 s. Find the (a) period, (b) frequency (in Hz), (c) angular frequency, (d) spring constant, (e) maximum speed, and (f) magnitude of the maximum force on the block from the spring.
2. A system consists ofa block attached to two horizontally-mounted springs, as shown in the figure...
2. A system consists ofa block attached to two horizontally-mounted springs, as shown in the figure is to the right. The horizontal sur- face across which the block slides is frictionless. What is the angular frequency of the oscillations of this system? Express your answer in terms of the mass of the block (m) and the spring constant of the spring (k).
A 500-g block is released from rest and slides down a frictionless track that begins 1.58...
A 500-g block is released from rest and slides down a frictionless track that begins 1.58 m above the horizontal, as shown in the figure below. At the bottom of the track, where the surface is horizontal, the block strikes and sticks to a light spring with a spring constant of 23.0 N/m. Find the maximum distance the spring is compressed 500 g
In the figure below, two identical springs of spring constant 7500 N/m are attached to a...
In the figure below, two identical springs of spring constant
7500 N/m are attached to a block of mass 0.300 kg. What is the
frequency of oscillation on the frictionless floor? Give your
answer in Hz
4. Two objects of masses m/ and m2 are connected by a massless spring as shown...
4. Two objects of masses m/ and m2 are connected by a massless spring as shown in the figure below. The spring has a natural length of L and a stiffness of k. Owo a. If x is the extension of the spring by the horizontal motion of the masses, use Newton's second law to determine the equations of motion for each object. b. Combine these equations to show that the system oscillates at a frequency of - mįm2 w2...
Incline, Spring, and Friction: A block of mass 500 g is attached to a spring of...
Incline, Spring, and Friction: A block of mass 500 g is attached to a spring of spring constant 80 N m−1. The other end of the spring is attached to a support while the mass rests on a rough surface with a coefficient of friction of 0.20 that is inclined at angle of 30◦ . The block is pushed along the surface till the spring compresses by 10 cm and is then released from rest. (a) Compute how much potential...
An oscillator consists of a block of mass 420 g connected to a spring. When set into oscillation with amplitude 26 cm, the oscillator repeats its motion every 0.41 s. Find the (a) period, (b) frequency (in Hz), (c) angular frequency, (d) spring constant, (e) maximum speed, and (f) magnitude of the maximum force on the block from the spring.
2. A system consists ofa block attached to two horizontally-mounted springs, as shown in the figure is to the right. The horizontal sur- face across which the block slides is frictionless. What is the angular frequency of the oscillations of this system? Express your answer in terms of the mass of the block (m) and the spring constant of the spring (k).
A 500-g block is released from rest and slides down a frictionless track that begins 1.58 m above the horizontal, as shown in the figure below. At the bottom of the track, where the surface is horizontal, the block strikes and sticks to a light spring with a spring constant of 23.0 N/m. Find the maximum distance the spring is compressed 500 g
In the figure below, two identical springs of spring constant
7500 N/m are attached to a block of mass 0.300 kg. What is the
frequency of oscillation on the frictionless floor? Give your
answer in Hz
4. Two objects of masses m/ and m2 are connected by a massless spring as shown in the figure below. The spring has a natural length of L and a stiffness of k. Owo a. If x is the extension of the spring by the horizontal motion of the masses, use Newton's second law to determine the equations of motion for each object. b. Combine these equations to show that the system oscillates at a frequency of - mįm2 w2...
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