1. [1pt]
The following formula represents the transverse displacement from
equilibrium of a particle on a string,
y(x,t) = 3.5 cos(3x+36t),
where x is measured in meters, y in centimeters, and t in seconds.
Select the correct answer for each of the statements below
from
T (true), F (false), G (greater than), L (less than), or E (equal
to).
For example, if the first statement is true, and the others should
be completed with “equal to”, enter TEEE.
You only have 5 tries!
1. [1pt] The following formula represents the transverse displacement from equilibrium of a particle on a...
1. [1pt] The following formula represents the transverse displacement from equilibrium of a particle on a string y(x) -1.5 cos(3x+900, where x is measur T (true), F (alse), G (greater than), L (less than), or E (equal to), For example, if the first statement is true, and the others should be completed with "equal to", enter TEEE ed in meters, y in centimeters, and t in seconds. Select the correct answer for each of the statements below fro You only...
The transverse displacement of a stretched string from equilibrium as a function of time and position is given by: y=0.13 cos(3 x + 54 t). x and y are in m; t is in s. True False Greater than Less than Equal to The wavelength is ..... 1 m. True False Greater than Less than Equal to The speed of the wave is ..... 17 m/s. True False Greater than Less than Equal to The period is ..... 0.1 seconds. True False Greater...
The transverse displacement of a stretched string from equilibrium as a function of time and position is given by: y=0.13 cos(9 x + 45t). x and y are in m; t is in s. The wavelength is The period is ..... 0.1 seconds. The wave moves in the positive x direction. The speed of the wave is 1 m. Less than Greater than True 6 m/s. Less than A traveling, wave can be any function of (2*pi*x/lamda-2*pi*t/period). Calculate the various...
The transverse displacement of a stretched string from equilibrium as a function of time and position is given by: y=0.13 cos(9 x + 45 t). x and y are in m; t is in s. The wavelength is ..... 1 m. The period is ..... 0.1 seconds. The wave travels in the negative x direction. The speed of the wave is ..... 6 m/s. A traveling wave can be any function of (2*pi*x/lamda-2*pi*t/period). Calculate the various parameters where needed then...
A transverse wave is traveling on a string. The displacement y of a particle from its equilibrium position is given by y = (0.021 m) sin(25t - 2.0x). Note that the phase angle 25t - 2.0x is in radians, t is in seconds, and x is in meters. The linear density of the string is 2.4 x 10-2 kg/m. What is the tension in the string? F=
The transverse displacement of a stretched string from equilibrium as a function of time and position is given by: y=0.13 cos(3 x - 72 t). x and y are in m; t is in s. False: The wave moves in the negative x direction. Greater than: The wavelength is ..... 1 m. Greater than: The speed of the wave is ..... 23 m/s. Less than: The period is ..... 0.1 seconds. Solve: Calculate the average power transmitted by the string....
The equation of a transverse wave traveling along a very long string is given by y = 6.1 sin(0.018πx + 3.1πt), where x and y are expressed in centimeters and t is in seconds. Determine the following values. (a) the amplitude cm (b) the wavelength cm (c) the frequency Hz (d) the speed cm/s (e) the direction of propagation of the wave +x−x +y−y (f) the maximum transverse speed of a particle in the string cm/s (g) the transverse displacement at...
Q1) The following equation describes a transverse wave on a string: The displacement y of a particle from its equilibrium position is given by: y 0.02 1sin (2.0x-2. 5t) Note: the phase angle is in radians, t is in seconds, x and y are in meters. Determine: a) b) c) d) The amplitude of the wave The frequency of the wave The wavelength of the wave The speed of the wave
The equation of a transverse wave traveling along a very long string is y = 3.96 sin(0.0444πx+ 7.89πt), where x and y are expressed in centimeters and t is in seconds. Determine (a) the amplitude, (b) the wavelength, (c) the frequency, (d) the speed, (e) the direction of propagation of the wave and (f) the maximum transverse speed of a particle in the string. (g) What is the transverse displacement at x = 1.05 cm when t = 0.843 s?
The options are T/F/greater/less than/equal to The transverse displacement of a stretched string from equilibrium as a function of time and position is given by: y0.13 coskr xand y are in m; t is in s; k = 9 m-1 and ω = 81 rad s. The wavelength is 1 m The period is 1 s The wave moves in the positive x direction