A simple harmonic oscillator's velocity is given by vy(t) = (0.870 m/s)sin(10.8t − 4.65). Find the...

A simple harmonic oscillator's position is given by y(t) = (0.950 m)cos(11.8t − 6.15). Find the...

A simple harmonic oscillator's position is given by y(t) = (0.950 m)cos(11.8t − 6.15). Find the oscillator's position, velocity, and acceleration at each of the following times. (Include the sign of the value in your answer.) (a)     t = 0 position       m velocity     m/s acceleration     m/s2 (b)     t = 0.500 s position     m velocity     m/s acceleration     m/s2 (c)     t = 2.00 s position     m velocity     m/s acceleration     m/s2

A simple harmonic oscillator's position is given by y(t) = (0.860 m)cos(10.2t − 5.65). Find the...

A simple harmonic oscillator's position is given by y(t) = (0.860 m)cos(10.2t − 5.65). Find the oscillator's position, velocity, and acceleration at each of the following times. (Include the sign of the value in your answer.) (a)     t = 0 position     m velocity     m/s acceleration     m/s2 (b)     t = 0.500 s position     m velocity     m/s acceleration     m/s2 (c)     t = 2.00 s position     m velocity     m/s acceleration     m/s2

A harmonic oscillator is described by the function x(t) = (0.350 m) cos(0.490t). Find the oscillator's...

A harmonic oscillator is described by the function x(t) = (0.350 m) cos(0.490t). Find the oscillator's maximum velocity and maximum acceleration. Find the oscillator's position, velocity, and acceleration when t = 1.25 s. (a) oscillator's maximum velocity (in m/s) (b) oscillator's maximum acceleration (m/s2) (c) oscillator's position (in m) when t = 1.25 s (d) oscillator's velocity (in m/s) when t = 1.25 s (e) oscillator's acceleration (in m/s2) when t = 1.25 s

In an engine, a piston oscillates with simple harmonic motion so that its position varies according...

In an engine, a piston oscillates with simple harmonic motion so that its position varies according to the expression, x = 3.00 cos(t+π/4) (a) At t = 0, find the position of the piston.where x is in centimeters and t is in seconds. We are given x as a function of time. For any x(t) you can determine the position at a particular time by putting that value into the function. cm (b) At t = 0, find velocity of...

a(t) = 2e^ −t + 4 cos(2t) − sin(2t). Find the initial acceleration at t =...

a(t) = 2e^ −t + 4 cos(2t) − sin(2t). Find the initial acceleration at t = 0. If time is measured in seconds and distance is measured in meters, what units is your answer in? Find the velocity v(t) of the object given an initial velocity of 2 meters per second. Find the position s(t) of the object given an initial position of 0 meters.

A simple harmonic oscillator consists of a block of mass 1.30 kg attached to a spring...

A simple harmonic oscillator consists of a block of mass 1.30 kg attached to a spring of spring constant 490 N/m. When t= 0.500 s, the position and velocity of the block are x = 0.155 m and v = 3.510 m/s. (a) What is the amplitude of the oscillations? What were the (b) position and (c) velocity of the block at t = 0 s?

A simple harmonic oscillator is made up of a mass-spring system, with mass of 2.71 kg...

A simple harmonic oscillator is made up of a mass-spring system, with mass of 2.71 kg and a spring constant k = 198 N/m. At time t=1.15 s, the position and velocity of the block are x = 0.137 m and v = 3.547 m/s. What is the velocity of the oscillation at t=0? Be sure to include the minus sign for negative velocity.

In an engine, a piston oscillates with simple harmonic motion so that its position varies according...

In an engine, a piston oscillates with simple harmonic motion so that its position varies according to the expression, x = 8.00 cos (3t + pi/4) where x is in centimeters and t is in seconds. (a) At t = 0, find the position of the piston. cm (b) At t = 0, find velocity of the piston. cm/s (c) At t = 0, find acceleration of the piston. cm/s2 (d) Find the period and amplitude of the motion. period...

1. (1’) The position function of a particle is given by s(t) = 3t2 − t3,...

1. (1’) The position function of a particle is given by s(t) = 3t2 − t3, t ≥ 0. (a) When does the particle reach a velocity of 0 m/s? Explain the significance of this value of t. (b) When does the particle have acceleration 0 m/s2? 2. (1’) Evaluate the limit, if it exists. lim |x|/x→0 x 3. (1’) Use implicit differentiation to find an equation of the tangent line to the curve sin(x) + cos(y) = 1 at...

The equation describing the position of a particle executing simple harmonic oscillation is x = 20...

The equation describing the position of a particle executing simple harmonic oscillation is x = 20 cos(30pi t), where x is in meters and t is in seconds. Find a) the period of the oscillation b) the amplitude of the oscillation c) the phase at times t1 = 1/180 s and t2 = 1/90 s, and d) the position, the velocity, and the acceleration at those times t1 and t2.