A wave in a string has a wave function given by: y (x, t) = (0.0200m)...

A wave on a string has a wave function given by: y (x, t) = (0.300m)...

A wave on a string has a wave function given by: y (x, t) = (0.300m) sin [(4.35 m^-1 ) x + (1.63 s^-1 ) t] where t is expressed in seconds and x in meters. Determine: (10 points) a) the amplitude of the wave b) the frequency of the wave c) wavelength of the wave d) the speed of the wave

A sine wave on a string is described by the wave function y (x, t) =...

A sine wave on a string is described by the wave function y (x, t) = 5.50 sin (0.70x-60.00t) where x and y are in meters and t in seconds. The mass per unit length of this rope is 11.00 g / m. Determine (a) the wavelength, (b) the average power transmitted by the wave. a 8.98 m, 95464.29 W b 0.10 m, 212.14 W c 0.10 m, 95464.29 W d 8.98 m, 212.14 W

A harmonic transverse wave function is given by y(x, t) = (0.800 m)sin(16.4x + 10.2t) where...

A harmonic transverse wave function is given by y(x, t) = (0.800 m)sin(16.4x + 10.2t) where all values are in the appropriate SI units. (Assume x is in meters and t is in seconds.) (a) What are the propagation speed and direction of the wave's travel? speed     m/s direction     ---Select--- +x −x +y −y +z −z (b) What are the wave's period and wavelength? period     s wavelength     m (c) What is the amplitude? m

The wave function for a traveling wave on a taut string is (in SI units) y(x,t)...

The wave function for a traveling wave on a taut string is (in SI units) y(x,t) = 0.380 sin (5πt − 4πx + π 4) (a) What are the speed and direction of travel of the wave? speed ________ m/s direction(positive-x, positive-y, positive-z, negative-x, negative-y, negative-z) (b) What is the vertical position of an element of the string at t = 0, x = 0.120 m? _______m (c) What is the wavelength of the wave? _______m (d) What is the...

A wave on a string is described by the equation y(x, t) = 2*cos(2 π(x/4m- t...

A wave on a string is described by the equation y(x, t) = 2*cos(2 π(x/4m- t /.1 s)) where x is in meters and t is in seconds. a. Is the wave travelling to the right or to the left? _________ b. What is the wave frequency? __________ c. What is the wavelength? ___________ d. What is the wave speed? _________ e. At t=0.50 seconds what is the displacement of the string at x=0.20 meters. _________

A wave is described by y = 0.019 8 sin(kx - ωt), where k = 2.06...

A wave is described by y = 0.019 8 sin(kx - ωt), where k = 2.06 rad/m, ω = 3.68 rad/s, x and y are in meters, and t is in seconds. (a) Determine the amplitude of the wave. m (b) Determine the wavelength of the wave. m (c) Determine the frequency of the wave. Hz (d) Determine the speed of the wave. m/s

The function y(x,t) = 0.3 sin( 2 π t -2 π x + π /4) represents...

The function y(x,t) = 0.3 sin( 2 π t -2 π x + π /4) represents the vertical position of an element of a taut string upon which a transverse wave travels. This function depends on the horizontal position along the string, x, and time, t. y and x are in units of meters and t is in units of seconds. Do not use symbols in any of your answers below. Only use integers or decimals. a. Determine the angular...

A transverse wave on a string is described by y(x, t) = (0.140 mm) sin {(5.747...

A transverse wave on a string is described by y(x, t) = (0.140 mm) sin {(5.747 rad/m)[x − (69.8 m/s)t]}. Find the wavelength of this wave. in m Find the frequency of this wave. in Hz Find the amplitude of this wave in mm Find the speed of motion of the wave in m/s Find the direction of motion of the wave. Express your answer as "+x" or "-x".

7. A wave on a string has a displacement according to the equation: y(x,t) = 25.0...

7. A wave on a string has a displacement according to the equation: y(x,t) = 25.0 cm sin ((36.0/m)x – (8.00/sec)t) Determine the amplitude, frequency, period, velocity, and wavelength of the wave. Also determine the transverse velocity at t = 0.16 sec.

a. Find the speed of a wave on a string given by y(x,t)=(3.00 mm) sin [(7.0/s)t...

a. Find the speed of a wave on a string given by y(x,t)=(3.00 mm) sin [(7.0/s)t -(4.00/m)x) ] . b. What can you do to increase the speed of the wave? c. What is the vertical speed of the string at a point located 0.2m away from the origin at time 0.3s? d. A wave given by y(x,t)=(3.00 mm) sin [(7.0/s)t -(4.00/m)x+pi/2 ] is created on another identical string. What is different and what is the same in these two...