What is the period?
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What is the period?
What is the Spring constant?
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A. The position of a 45 g oscillating mass is given by x(t)=(2.0cm)cos(10t), where t is...
A. The position of a 45 g oscillating mass is given by x(t)=(2.0cm)cos(10t), where t is in seconds. Determine the velocity at t=0.40s. B. Assume that the oscillating mass described in Part A is attached to a spring. What would the spring constant k of this spring be? C. What is the total energy E of the mass described in the previous parts?
Part A: The position of a 55 g oscillating mass is given by x(t)=(2.0cm)cos(10t), where t...
Part A: The position of a 55 g oscillating mass is given by x(t)=(2.0cm)cos(10t), where t is in seconds. Determine the velocity at t=0.40s. Express your answer in meters per second to two significant figures. Part B: Assume that the oscillating mass described in Part A is attached to a spring. What would the spring constant k of this spring be? Express your answer in newtons per meter to two significant figures. Part C: What is the total energy E...
mastering physics
If the net force acting on a particle is a linear restoring force, the motion will be simple harmonic motion around the equilibrium position.The position as a function of time is x(t)=Acos(omega t + phi_0). The velocity as a function of time is v_x(t)=-omega A sin(omega t + phi_0). The maximum speedis v_{rm max} = omega A. The equations are given here in terms of x, but they can be written in terms of y, theta or some other parameter...
Please answer correctly, posted these before and got wrong answers. Problem 14.23 l Review 1 Constants...
Please answer correctly, posted these before and got wrong
answers.
Problem 14.23 l Review 1 Constants 1 Periodic Table Y Part B The position of a 46 g oscillating mass is given by z() (1.8 cm) cos 13t, where t is in Determine the period Express your answer in seconds. seconds. T-0.68 Submit Previous Answers Request Answer Incorrect:; Try Again; 5 attempts remaining Part F Determine the velocity at t-0.41 s Express your answer in meters per second. m/s Submit...
The position of a 53 g oscillating mass is given by x(t)=(1.7cm)cos12t, where t is in...
The position of a 53 g oscillating mass is given by x(t)=(1.7cm)cos12t, where t is in seconds. determine the amplitude determine the period determine the spring constant determine the maximum speed determine the total energy determine the velocity at .45s
A spring having a spring constant k is placed on a smooth horizontal table and the...
A spring having a spring constant k is placed on a smooth horizontal table and the left end is fixed. A mass of 200 g is attached to the other end of the spring. The mass is pushed 10.0 cm (to the left) against the spring, then released. A student with a stopwatch finds that 10 oscillations take 12.0 s. (A) Draw a neat diagram showing the spring, mass, amplitude, equilibrium position, and both ends of the oscillation. (B) Calculate...
Constants Periodic lable Part A A complete description of simple harmonic motion must take into account...
Constants Periodic lable Part A A complete description of simple harmonic motion must take into account several physical quantities and various mathematical relations among them. This information is needed to solve oscillation problems of this type. Determine the velocity at t = 0.40 s. Express your answer in meters per second to two significant figures. View Available Hint(s) The position of a 60 g oscillating mass is given by z(t) (2.0 cm) cos(10t), where t is in seconds. Uz- m/s...
Problem #1: 10 points A spring having a spring constant k is placed on a smooth...
Problem #1: 10 points A spring having a spring constant k is placed on a smooth horizontal table and the left end is fixed. A mass of 200 g is attached to the other end of the spring. The mass is pushed 10.0 cm (to the left) against the spring, then released. A student with a stopwatch finds that 10 oscillations take 12.0 s. Draw a neat diagram showing the spring, mass, amplitude, equilibrium position, and both ends of the...
Could you please answer all of the following questions? 1. A 3 kg object attached to...
Could you please answer all of the following questions? 1. A 3 kg object attached to a spring oscillates with an amplitude of 15 cm and a period of 2 s. At a time t = 0.5 s, the object's position is x = 9.1 cm. Determine a) the spring constant of the spring b) the total energy of the system (in joules) c) the maximum speed of the object d) the position of the object as a function of...
A 2.5-kg object attached to an ideal spring with a force constant (spring constant) of 15...
A 2.5-kg object attached to an ideal spring with a force constant (spring constant) of 15 N/m oscillates on a horizontal, frictionless track. At time t = 0.00 s, the cart is released from rest at position x = 8 cm from the equilibrium position. (a) What is the frequency of the oscillations of the object? (b) Determine the maximum speed of the cart. (c) Find the maximum acceleration of the mass (d) How much total energy does this oscillating...
Please answer correctly, posted these before and got wrong
answers.
Problem 14.23 l Review 1 Constants 1 Periodic Table Y Part B The position of a 46 g oscillating mass is given by z() (1.8 cm) cos 13t, where t is in Determine the period Express your answer in seconds. seconds. T-0.68 Submit Previous Answers Request Answer Incorrect:; Try Again; 5 attempts remaining Part F Determine the velocity at t-0.41 s Express your answer in meters per second. m/s Submit...
Constants Periodic lable Part A A complete description of simple harmonic motion must take into account several physical quantities and various mathematical relations among them. This information is needed to solve oscillation problems of this type. Determine the velocity at t = 0.40 s. Express your answer in meters per second to two significant figures. View Available Hint(s) The position of a 60 g oscillating mass is given by z(t) (2.0 cm) cos(10t), where t is in seconds. Uz- m/s...
Problem #1: 10 points A spring having a spring constant k is placed on a smooth horizontal table and the left end is fixed. A mass of 200 g is attached to the other end of the spring. The mass is pushed 10.0 cm (to the left) against the spring, then released. A student with a stopwatch finds that 10 oscillations take 12.0 s. Draw a neat diagram showing the spring, mass, amplitude, equilibrium position, and both ends of the...
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