
just number 17 14. [1pt] A 0.649 kg mass vibrates according to the equation x=0.260 sin(5.811),...
14. [1pt] A 0.618 kg mass vibrates according to the equation x = 0.265 sin(5.45t), where x is in meters and t is in seconds. Determine the amplitude. Answer: 15. [1pt] Calculate the period. Answer: 16. [1pt] Calculate the total energy. Answer: 17. [1pt] Calculate the potential energy when x = 10.4 cm. Answer:
A 442g mass vibrates according to the equation x = 0.370 sin (5.95 t) where x is in meters and t is in seconds. A) Determine the amplitude. B) Determine the frequency. C) Determine the period. D) Determine the total energy. E) Determine the kinetic energy when x is 12.6 cm. F) Determine the potential energy when x is 12.6cm.
A 0.47 kg mass vibrates according to the equation x -0.48 cos (8.36t+ 3.15), where x is in meters, and t is in seconds. (a) Determine the amplitude. m (b) Determine the frequency. X Hz (c) Determine the total energy. (d) Determine the kinetic energy and potential energy when x = 0.33 m. kinetic energy - potential energy -
A 409 g mass vibrates according to the equation x = 0.37 sin (5.48t) where x is in meters and t is in seconds. (d) Determine the total energy. (e) Determine the KE and PE when x is 12.0 cm. KE: PE:
A 0.50 kg mass attached to the end of a spring vibrates according to the equation x = 0.45 cos 8.40t, where x is in meters, and t in seconds. (a) Write down equations for its velocity and acceleration as functions of time. (b) What is its maximum speed and what is the earliest time (after t =0) at which it has this speed? (c) What is its maximum positive acceleration and the earliest time ( t >0) at which...
Please show all the work
A 1.15 kg mass oscillates according to the equation x=0.650 cos (8.40t) where x is in meters and t in seconds. Determine: the amplitude, the frequency, the total energy, and the kinetic and potential energy when x=0.360m
A 0.70 kg mass oscillates according to the equation x=0.22sin(5.8t) where x is in meters and t is in seconds. What is the Kinetic and Potential Energy when X=11cm
Ch. 11 #7 A 1.30 kg mass oscillates according to the equation x=0.500cos8.70t, where x is in meters and t is in seconds. Part A Determine the amplitude. Part B Determine frequency Part C Determine the total energy. Part D Determine the kinetic energy when x = 0.210 m .
A string vibrates according to the equation 1. Y(x,t) = 10.0 cm * sin((7.00cm-')x)*cos(2.00 rad/s)t (THIS IS A STANDING WAVE. What is the angular wave number? What is the wavelength? What is the speed of the 2 waves making the standing wave? What is the amplitude of the 2 waves making the standing wave? What is the distance between the nodes? What is the angular speed of the 2 waves making the standing wave? What is the period of the...