A 55 kg block oscillates in simple harmonic motion on the end of a spring with...
A 55 kg block oscillates in simple harmonic motion on the end of a spring with a spring constant of 1500N/m according to xmcos (ωt+ φ). What is the shortest time it takes the block to move from position +0.800 xm to a position: +0.600 xm?
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A 55 kg block oscillates in simple harmonic motion on the end of
a spring with...
Energy in simple harmonic motion A 2.90 kg object oscillates with simple harmonic motion on a...
Energy in simple harmonic motion A 2.90 kg object oscillates with simple harmonic motion on a spring of force constant 600 N/m. The maximum speed is 0.800 m/s. A) What is the total energy of the object and the spring? B) What is the maximum amplitude of the oscillation?
A 0.335kg block is attached to a horizontal spring and that oscillates in simple harmonic motion...
A 0.335kg block is attached to a horizontal spring and that oscillates in simple harmonic motion with a period of 0.293s. The total energy of the system is 3.45J. (a) What is the force constant of the spring? (b) What is the amplitude of the motion?
A 0.50 kg mass oscillates in simple harmonic motion on a spring with a spring constant...
A 0.50 kg mass oscillates in simple harmonic motion on a spring with a spring constant of 210 N/m . Part A What is the period of the oscillation? Part B What is the frequency of the oscillation?
Homework: Simple Harmonic Motion Name: 1. A 4.5-kg block is hung from a spring causing the...
Homework: Simple Harmonic Motion Name: 1. A 4.5-kg block is hung from a spring causing the spring to elongate 12 cm. (a) What is the spring constant for this spring? (b) If the spring was stretched 18 cm and released, what will be the period of oscillation? 2. What mass on a spring with a spring constant of 160 N/m will oscillate with a period of 2.0 s? 3. A mass of 240 g oscillates on a spring on a...
In the figure, block 2 of mass 2.60 kg oscillates on the end ofa spring...
In the figure, block 2 of mass 2.60 kg oscillates on the end of a spring in SHM with a period of 26.00 ms. The position of the block is given by x = (1.50 cm) cos(ωt + π/2). Block 1 of mass 5.20 kg slides toward block 2 with a velocity of magnitude 3.00 m/s, directed along the spring's length. The two blocks undergo a completely inelastic collision at time t= 6.50 ms. (The duration of the collision is...
A wooden block (m = 0.640 kg) is connected to a spring and undergoes simple harmonic...
A wooden block (m = 0.640 kg) is connected to a spring and undergoes simple harmonic motion with an amplitude of oscillation of 0.055 m. The frequency of the motion is 11.50 Hz. (a) What is the spring constant? N/m (b) What is the maximum speed of the block? m/s (c) What is the speed of the block when it is 0.023 m away from the equilibrium position? m/s
(11) A block, attached to a spring, executes simple harmonic motion described by the position expression:...
(11) A block, attached to a spring, executes simple harmonic motion described by the position expression: x-20 m cos(10t), where x is in meters and t is in seconds. If the spring constant is 1,000 N/m what is the mass of this block: (A) 100 kg (B) 2.5 kg (C) 10 kg (D) 390 kg (E) 109 kg
A 4.8 kg block attached to a spring executes simple harmonic motion on a frictionless horizontal...
A 4.8 kg block attached to a spring executes simple harmonic motion on a frictionless horizontal surface.The amplitude is 0.90 m, the maximum acceleration is 2.9 m/s^2. The force constant of the spring is closest to?
3 pts) A block attached to the end of a spring moves in simple harmonic motion...
3 pts) A block attached to the end of a spring moves in simple harmonic motion according to the position function z(t) = X cos where the period of the motion is 4.0 s and the amplitude of the motion is 15 cm a) State the value of X b) State the value of T c) Determine the frequency of the motion Hz d) Determine the position of the block after 1.0s: Determine the position of the block after 2.0...
3. A mass oscillates on a spring with simple harmonic motion. The plot below shows its...
3. A mass oscillates on a spring with simple harmonic motion. The plot below shows its position as a function of time. If the spring constant is 230 N/m, what is the maximum speed of the mass? y(cm) 10h 5 0+ 0. 0.2 1.3 0.4 >t(s) 0.5 -101 A B C D E 0.25 m/s 1.57 m/s 2.50 m/s 1.00 m/s 0.50 m/s
Homework: Simple Harmonic Motion Name: 1. A 4.5-kg block is hung from a spring causing the spring to elongate 12 cm. (a) What is the spring constant for this spring? (b) If the spring was stretched 18 cm and released, what will be the period of oscillation? 2. What mass on a spring with a spring constant of 160 N/m will oscillate with a period of 2.0 s? 3. A mass of 240 g oscillates on a spring on a...
A wooden block (m = 0.640 kg) is connected to a spring and undergoes simple harmonic motion with an amplitude of oscillation of 0.055 m. The frequency of the motion is 11.50 Hz. (a) What is the spring constant? N/m (b) What is the maximum speed of the block? m/s (c) What is the speed of the block when it is 0.023 m away from the equilibrium position? m/s
(11) A block, attached to a spring, executes simple harmonic motion described by the position expression: x-20 m cos(10t), where x is in meters and t is in seconds. If the spring constant is 1,000 N/m what is the mass of this block: (A) 100 kg (B) 2.5 kg (C) 10 kg (D) 390 kg (E) 109 kg
3 pts) A block attached to the end of a spring moves in simple harmonic motion according to the position function z(t) = X cos where the period of the motion is 4.0 s and the amplitude of the motion is 15 cm a) State the value of X b) State the value of T c) Determine the frequency of the motion Hz d) Determine the position of the block after 1.0s: Determine the position of the block after 2.0...
3. A mass oscillates on a spring with simple harmonic motion. The plot below shows its position as a function of time. If the spring constant is 230 N/m, what is the maximum speed of the mass? y(cm) 10h 5 0+ 0. 0.2 1.3 0.4 >t(s) 0.5 -101 A B C D E 0.25 m/s 1.57 m/s 2.50 m/s 1.00 m/s 0.50 m/s
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