12. (1 point) 12. Consider a wave travelling at 125 through a long piece of dental...
Consider a transverse harmonic wave travelling along a string. Enter true (T) or false (F) for the following statements. For example, if the first statement is true and the rest false, enter TFF. You have 4 tries. Increasing the frequency of the wave increases its wavelength. Increasing the amplitude of the wave increases its wavelength. If a wave with a frequency of 10 Hz travels along a string with a mass per unit length of 40 g/m stretched to a...
What is the frequency of oscilltion, wavelength, wave-speed, and amplitude of oscillaion for a travelling wave described by the equation: y = (30m) sin(16-8) Calculate the surface wa pee in seawater. Use one atmosphere for the Pressure near the surface and 1030 kg/m for the density of seawater. A 60-cm long guitar string is under a tension of 95 N. If the mass of the string is 0.21 g, find the fundamental frequency of this string. The wave speed on...
1. [1pt]
Consider a Gaussian wave pulse with amplitude 1 cm travelling on a
4 m long string with two free ends, as shown. If the wave travels
at 1 m/s, then what is the displacement y at x = 0 m and t = 6 s?
Make sure you can explain your reasoning in terms of the physics of
wave reflections and superposition.
1)
y (cm) -1
4. Consider the equation shown below, which gives the displacement of a wave travelling along the x-axis. d(x.t) - (5.5 cm) sin(2.2x- 135t) a) What is the wave's frequency? (include units) (include units) (include units) b) What is the wave's wavelength? c) What is the wave's speed?
Cack Submit to complete this assessment Question 10 1 points Save A sinusoidal wave is travelling with a speed of 4.85 ms in a stretched string. The amplitude of the wave is 0 12 mm and has an angular wave member of 126 radm. What is the frequency of the wave? 194 52 HZ 9.26 97.26 None of these
Can you please explain how you
get the answer, thank you
1. (1 point) 1. Consider the snapshot and history graphs shown below for a wave pulse travelling through a rope d(em) d (em) -x (cm) -4 s) -4 The snapshot graph is at t = 0.01s and the history graph is at xcm. a) The snapshot graph is shown on the . A. Left . B. Right b) The wave is travelling in which direction? . A. Left ....
Can you please explain how you
get the answer. Thank you.
5. (1 point) 5. Consider the history graph at x-1 m shown below for wave travelling right at v 8 d (cm) 10 / 六すt(s) -10 a) What is the amplitude of the wave? -(include units) (include units) (include units) b) What is the frequency of the wave? c) What is the wavelength of the wave?
6. (1 point) 6. From the Oliver room, you are detecting seismic waves on your seismograph. At 12:00, you detect a longitudinal P wave, which travels at 8000 A 12: 01, you detect a transverse S wave, which travels through the earth slower at a speed of 4000 . Assuming that the waves travel in straight lines, how far from you was the earthquake? _(include units)
10-15 pls
010 10.0 points A sinusoidal transverse wave travels along a wire of linear density 8.34 g/m. The wave has amplitude 1.2 cm, frequency 132 Hz and wavelength 3.07 m What is the tension of the wire? Answer in units of N 011 (part 1 of 2) 10.0 points A standing wave is formed on a string that is 32 m long, has a mass per unit length 0.00512 kg/m, and is stretched to a tension of 18 N...
A simple harmonic oscillator at the position x=0 generates a
wave on a string. The oscillator moves up and down at a frequency
of 40.0 Hz and with an amplitude of 3.00 cm. At time t =
0, the oscillator is passing through the origin and moving down.
The string has a linear mass density of 50.0 g/m and is stretched
with a tension of 5.00 N.
A simple harmonic oscillator at the position x = 0 generates a wave...