The potential energy of an object attached to a spring is 2.50 J at a location...
The potential energy of an object attached to a spring is 2.50 J at a location where the kinetic energy is 1.30 J . If the amplitude A of the simple harmonic motion is 22.0 cm , calculate the spring constant k and the magnitude of the largest force F spring, max that the object experiences.
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The potential energy of an object attached to a spring is 2.50 J
at a location...
an object of mass "m" is attached to a spring with spring constant "k" and oscillated...
an object of mass "m" is attached to a spring with spring constant "k" and oscillated with simple harmonic motion motion. the maximum displacement from equillibrium is "A" and the total mechanical energy of the system is "ME." What is the system's potential energy when its kinetic energy is equal to 1/3 ME? (the answer should only have "k" and "A" as veriables, nothing else is allowed)
An object of mass 7.5 kg is attached to a spring constant 2.5 N/m. Starting from...
An object of mass 7.5 kg is attached to a spring constant 2.5 N/m. Starting from its maximum displacement at rest, the object undergoes simple harmonic oscillations of amplitude 53 cm. after 4.5 s have passed, determine: A) the objects position x=-0.45 m B) the objects velocity v= -0.16 m/s C) the objects acceleration a= 0.15 m/s2 D) the objects kinetic energy K= 0.095 J E) the potential energy store in the spring U=0.26J F) the total energy in the...
A mass of 397 g is attached to a spring and set into simple harmonic motion...
A mass of 397 g is attached to a spring and set into simple harmonic motion with a period of 0.246 s. If the total energy of the oscillating system is 5.94 J, determine the following. (a) maximum speed of the object 6.49 When is the total energy of the mass-spring system equal to the kinetic energy of the mass? m/s (b) force constant N/m (c) amplitude of the motion Additional Materials Reading
1. A simple harmonic motion of an object of mass m = 11 kg attached with a spring is represented as time vs displac...
1. A simple harmonic motion of an object of mass m = 11 kg attached with a spring is represented as time vs displacement graph in the following figure. Find the following parameters. 1.5m - АААААА 0.3 23 23 tis) -1.5m (a) Amplitude = (b) Time Period = (time for 1 wavelength distance) (c) Frequency = (d) Spring Constant = (e) Angular frequency = (f) Maximum Potential Energy stored in the spring (g) Maximum Kinetic Energy of the block (h)...
An object with mass 3.5 kg is attached to a spring with spring stiffness constant k...
An object with mass 3.5 kg is attached to a spring with spring stiffness constant k = 250 N/m and is executing simple harmonic motion. When the object is 0.020 m from its equilibrium position, it is moving with a speed of 0.55 m/s. (a) Calculate the amplitude of the motion. _______________________________ m (b) Calculate the maximum velocity attained by the object. [Hint: Use conservation of energy.] _______________________________ m/s
1. A simple harmonic motion of an object of mass m = 11 kg attached with...
1. A simple harmonic motion of an object of mass m = 11 kg attached with a spring is represented as time vs displacement graph in the following figure. Find the following parameters. (a) Amplitude = (b) Time Period = ( time for 1 wavelength distance) (c) Frequency = (d) Spring Constant = (e) Angular frequency = (f) Maximum Potential Energy stored in the spring (g) Maximum Kinetic Energy of the block (h) total energy of the spring -block system
1. A simple harmonic motion of an object of mass m = 11 kg attached with...
1. A simple harmonic motion of an object of mass m = 11 kg attached with a spring is represented as time vs displacement graph in the following figure. Find the following parameters. VAAAA (a) Amplitude = (b) Time Period = ( time for 1 wavelength distance) (c) Frequency = (d) Spring Constant = (e) Angular frequency = (f) Maximum Potential Energy stored in the spring (g) Maximum Kinetic Energy of the block (h) total energy of the spring -block...
Part A: 10 points each (Questions 1-4 1. A block mass of 3 kg attached with a spring kg attached with a spring of s...
Part A: 10 points each (Questions 1-4 1. A block mass of 3 kg attached with a spring kg attached with a spring of spring constant 2500 N/m as shown in the Figure below. The amplitude or maximum displacement X max is 7m. Calculate O a) Maximum Potential energy stored in the spring b) Maximum kinetic energy of the block c) the total energy-spring block system 2. A small mass moves in simple harmonic motion according to the equation x...
A mass of 207 g is attached to a spring and set into simple harmonic motion...
A mass of 207 g is attached to a spring and set into simple harmonic motion with a period of 0.226 s. If the total energy of the oscillating system is 6.14 J, determine the following. (a) maximum speed of the object m/s (b) force constant N/m (c) amplitude of the motion
A 2-kg object is suspended at rest from a vertical spring (K=196 N/m) attached to the...
A 2-kg object is suspended at rest from a vertical spring (K=196 N/m) attached to the ceiling. From this equilibrium position, the object is pulled down an additional distance d=3 cm and released from rest. a) Considering the upward direction to be positive, find the amplitude, frequency and phase constant of the simple harmonic motion and write the equation of the motion. b) find the speed of the object at the moment when it is 3 cm above the release...
A mass of 397 g is attached to a spring and set into simple harmonic motion with a period of 0.246 s. If the total energy of the oscillating system is 5.94 J, determine the following. (a) maximum speed of the object 6.49 When is the total energy of the mass-spring system equal to the kinetic energy of the mass? m/s (b) force constant N/m (c) amplitude of the motion Additional Materials Reading
1. A simple harmonic motion of an object of mass m = 11 kg attached with a spring is represented as time vs displacement graph in the following figure. Find the following parameters. 1.5m - АААААА 0.3 23 23 tis) -1.5m (a) Amplitude = (b) Time Period = (time for 1 wavelength distance) (c) Frequency = (d) Spring Constant = (e) Angular frequency = (f) Maximum Potential Energy stored in the spring (g) Maximum Kinetic Energy of the block (h)...
1. A simple harmonic motion of an object of mass m = 11 kg attached with a spring is represented as time vs displacement graph in the following figure. Find the following parameters. (a) Amplitude = (b) Time Period = ( time for 1 wavelength distance) (c) Frequency = (d) Spring Constant = (e) Angular frequency = (f) Maximum Potential Energy stored in the spring (g) Maximum Kinetic Energy of the block (h) total energy of the spring -block system
1. A simple harmonic motion of an object of mass m = 11 kg attached with a spring is represented as time vs displacement graph in the following figure. Find the following parameters. VAAAA (a) Amplitude = (b) Time Period = ( time for 1 wavelength distance) (c) Frequency = (d) Spring Constant = (e) Angular frequency = (f) Maximum Potential Energy stored in the spring (g) Maximum Kinetic Energy of the block (h) total energy of the spring -block...
Part A: 10 points each (Questions 1-4 1. A block mass of 3 kg attached with a spring kg attached with a spring of spring constant 2500 N/m as shown in the Figure below. The amplitude or maximum displacement X max is 7m. Calculate O a) Maximum Potential energy stored in the spring b) Maximum kinetic energy of the block c) the total energy-spring block system 2. A small mass moves in simple harmonic motion according to the equation x...
A mass of 207 g is attached to a spring and set into simple harmonic motion with a period of 0.226 s. If the total energy of the oscillating system is 6.14 J, determine the following. (a) maximum speed of the object m/s (b) force constant N/m (c) amplitude of the motion
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