A puck with mass m = 0.14 kg slides along a frictionless horizontal surface at v...
A puck with mass m = 0.14 kg slides along a frictionless horizontal surface at v = 5.3 m/s . It hits and sticks to the free end of a spring with k = 18 N/m (see the figure).
Find the amplitude of the subsequent simple harmonic motion.
Find the period of the subsequent simple harmonic motion.
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A puck with mass m = 0.14 kg slides along a
frictionless horizontal surface at v...
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 >
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...
The figure below represents a small, flat puck with mass m = 2.32 kg sliding on a frictionless, horizontal surface. It...
The figure below represents a small, flat puck with mass m =
2.32 kg sliding on a frictionless, horizontal surface. It is held
in a circular orbit about a fixed axis by a rod with negligible
mass and length R = 1.16 m, pivoted at one end. Initially, the puck
has a speed of v = 4.57 m/s. A 1.00-kg ball of putty is dropped
vertically onto the the puck from a small distance above it and
immediately sticks to...
An object slides along a frictionless horizontal surface with a speed of 25 m/s. It hits...
An object slides along a frictionless horizontal surface with a speed of 25 m/s. It hits a horizontally placed spring that has an elastic constant of 5000 N/m. It compresses the spring 10-cm. What is the mass of the object?
A block of mass M = 1.94 kg, at rest on a horizontal frictionless table, is...
A block of mass M = 1.94 kg, at rest on a horizontal
frictionless table, is attached to a rigid support by a spring of
constant k = 110 N/m. A bullet of mass m = 4.7 g and velocity of
magnitude 810 m/s strikes and is embedded in the block (Fig. See
below). Assuming the compression of the spring is negligible until
the bullet is embedded, determine (a) the speed of the block
immediately after the collision and (b)...
A block of mass M = 5.60 kg, at rest on a horizontal frictionless table, is...
A block of mass M = 5.60 kg, at rest on a horizontal frictionless table, is attached to a rigid support by a spring of constant k = 6390 N/m. A bullet of mass m = 8.20 g and velocity of magnitude 710 m/s strikes and is embedded in the block (the figure). Assuming the compression of the spring is negligible until the bullet is embedded, determine (a) the speed of the block immediately after the collision and (b) the...
A block of mass M = 5.60 kg, at rest on a horizontal frictionless table, is...
A block of mass M = 5.60 kg, at rest on a horizontal frictionless table, is attached to a rigid support by a spring of constant k = 5890 N/m. A bullet of mass m = 9.30 g and velocity v of magnitude 650 m/s strikes and is embedded in the block (the figure). Assuming the compression of the spring is negligible is embedded, determine (a) the speed of the block immediately after the collision and (b) the amplitude of...
A block of mass M = 6.20 kg, at rest on a horizontal frictionless table, is...
A block of mass M = 6.20 kg, at rest on a horizontal frictionless table, is attached to a rigid support by a spring of constant k = 6410 N/m. A bullet of mass m = 9.30 g and velocity vā of magnitude 600 m/s strikes and is embedded in the block (the figure). Assuming the compression of the spring is negligible until the bullet is embedded, determine (a) the speed of the block immediately after the collision and (b)...
A mass of 1 kg and initial speed 10 m/s slides across a horizontal frictionless surface...
A mass of 1 kg and initial speed 10 m/s slides across a horizontal frictionless surface and hits a spring of force constant 200 N/m. How much will the spring be compressed from its relaxed length when the block will be at rest momentarily?
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 >
The figure below represents a small, flat puck with mass m =
2.32 kg sliding on a frictionless, horizontal surface. It is held
in a circular orbit about a fixed axis by a rod with negligible
mass and length R = 1.16 m, pivoted at one end. Initially, the puck
has a speed of v = 4.57 m/s. A 1.00-kg ball of putty is dropped
vertically onto the the puck from a small distance above it and
immediately sticks to...
A block of mass M = 1.94 kg, at rest on a horizontal
frictionless table, is attached to a rigid support by a spring of
constant k = 110 N/m. A bullet of mass m = 4.7 g and velocity of
magnitude 810 m/s strikes and is embedded in the block (Fig. See
below). Assuming the compression of the spring is negligible until
the bullet is embedded, determine (a) the speed of the block
immediately after the collision and (b)...
A block of mass M = 5.60 kg, at rest on a horizontal frictionless table, is attached to a rigid support by a spring of constant k = 5890 N/m. A bullet of mass m = 9.30 g and velocity v of magnitude 650 m/s strikes and is embedded in the block (the figure). Assuming the compression of the spring is negligible is embedded, determine (a) the speed of the block immediately after the collision and (b) the amplitude of...
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