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2. A system consists ofa block attached to two horizontally-mounted springs, as shown in the figure...
a) A block with mass m is attached to a horizontal spring with spring constant k....
a) A block with mass m is attached to a horizontal spring with spring constant k. The block is at rest on a frictionless surface. A bullet with mass Mbul is fired horizontally with speed vbul into the block, in the face opposite the spring, and sticks to the block. mün m Wbul Are you able to determine the bullet's speed by measuring the oscillation frequency of the system of block and bullet? If so, how If not, why not?
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
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
Question: A block with mass of m = 3.78 kg is attached to springs with spring...
Question: A block with mass of m = 3.78 kg is attached to springs with spring constants of ki = 18.1 N/m and k = 25.6 N/m, in different configurations shown in the figures below. Assume in all these cases that friction is negligible. Part 1) You will need to calculate the period of oscillations for each situation In this situation the mass is connected between the two springs which are each connected to opposite walls (Figure 1). What is...
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...
3. A block of a mass 500 g is connected to two springs as shown in...
3. A block of a mass 500 g is connected to two springs as shown in the picture. The spring constant of one of the springs is 1000 N/m. The block oscillates on a frictionless surface with frequency 30 Hz. Find force constant of the other spring. n u lana light rod oscillates at a r
A large block P attached to a light spring executes horizontal, simple harmonic motion as it...
A large block P attached to a light spring executes horizontal, simple harmonic motion as it slides across a frictionless surface with a frequency f = 1.60 Hz. Block B rests on it as shown in the figure, and the coefficient of static friction between the two is Mu_s = 0.510. What maximum amplitude of oscillation can the system have if block B is not to slip cm
49. A particle of mass 1.18 kg is attached between two identi- cal springs on a...
49. A particle of mass 1.18 kg is attached between two identi- cal springs on a horizontal, frictionless tabletop. Both springs have spring constant k and are initially unstressed. (a) The particle is pulled a distance x along a direction perpendicular to the initial configuration of the sp as shown in Figure P7.49. Show that the force exerted by the springs on the particle is VE+で nsonNQW
1) A block of mass m = 0.52 kg is attached to a spring with force...
1) A block of mass m = 0.52 kg is attached to a spring with
force constant 119 N/m is free to move on a frictionless,
horizontal surface as in the figure below. The block is released
from rest after the spring is stretched a distance A = 0.13 m.
(Indicate the direction with the sign of your answer. Assume that
the positive direction is to the right.)
(a) At that instant, find the force on the block. N
(b)...
A simple harmonic oscillator consists of a block attached to a spring with k -200 N/m....
A simple harmonic oscillator consists of a block attached to a spring with k -200 N/m. The block slides on a frictionless surface, with equilibrium point x 0 and amplitude 0.20 m. A graph of the block's velocity v as a function of time t is shown in figure below. The horizontal scale is set by's 0.20s. What are (a) the period of the SHM, (b) the block's mass, (c) its displacement att- 0, (d) its acceleration att-0.10 s, and...
a) A block with mass m is attached to a horizontal spring with spring constant k. The block is at rest on a frictionless surface. A bullet with mass Mbul is fired horizontally with speed vbul into the block, in the face opposite the spring, and sticks to the block. mün m Wbul Are you able to determine the bullet's speed by measuring the oscillation frequency of the system of block and bullet? If so, how If not, why not?
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
Question: A block with mass of m = 3.78 kg is attached to springs with spring constants of ki = 18.1 N/m and k = 25.6 N/m, in different configurations shown in the figures below. Assume in all these cases that friction is negligible. Part 1) You will need to calculate the period of oscillations for each situation In this situation the mass is connected between the two springs which are each connected to opposite walls (Figure 1). What is...
3. A block of a mass 500 g is connected to two springs as shown in the picture. The spring constant of one of the springs is 1000 N/m. The block oscillates on a frictionless surface with frequency 30 Hz. Find force constant of the other spring. n u lana light rod oscillates at a r
A large block P attached to a light spring executes horizontal, simple harmonic motion as it slides across a frictionless surface with a frequency f = 1.60 Hz. Block B rests on it as shown in the figure, and the coefficient of static friction between the two is Mu_s = 0.510. What maximum amplitude of oscillation can the system have if block B is not to slip cm
49. A particle of mass 1.18 kg is attached between two identi- cal springs on a horizontal, frictionless tabletop. Both springs have spring constant k and are initially unstressed. (a) The particle is pulled a distance x along a direction perpendicular to the initial configuration of the sp as shown in Figure P7.49. Show that the force exerted by the springs on the particle is VE+で nsonNQW
1) A block of mass m = 0.52 kg is attached to a spring with
force constant 119 N/m is free to move on a frictionless,
horizontal surface as in the figure below. The block is released
from rest after the spring is stretched a distance A = 0.13 m.
(Indicate the direction with the sign of your answer. Assume that
the positive direction is to the right.)
(a) At that instant, find the force on the block. N
(b)...
A simple harmonic oscillator consists of a block attached to a spring with k -200 N/m. The block slides on a frictionless surface, with equilibrium point x 0 and amplitude 0.20 m. A graph of the block's velocity v as a function of time t is shown in figure below. The horizontal scale is set by's 0.20s. What are (a) the period of the SHM, (b) the block's mass, (c) its displacement att- 0, (d) its acceleration att-0.10 s, and...
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