Homework Answers
33)
A transverse wave oscillates perpendicular to the direction of
motion, ie. if the wave is traveling in z-axis, then the
oscillations will be in x-y plane. Light is an example of a
transverse wave.
So here, the answer is b
34)
Speed of sound is in materials can be written as SQRT[E/
]
Where E is the Young's modulus and is the density of
the material.
In the list of given materials, E/ ration is highest
for steel.
So the answer is c
Add Answer to:
a. wavelerngt b. frequency c. speed d amplitude. e all of these. 33. The vibrations of...
Question 4 For waves that move at a constant wave speed, the particles in the medium...
Question 4 For waves that move at a constant wave speed, the particles in the medium do not accelerate. Select the correct answer O False O True Question 6 Two car horns are sounded creating two sound waves with frequencies that differ by a factor of three. How does the speed of the higher frequency sound wave compare to the lower frequency sound wave? Select the correct answer The higher frequency sound wave travels 3 times faster Your Answer O...
A certain transverse wave is described by the equation y(x,t) = (6.50 mm)sin2pi((t/0.0360 s)-(x/0.280m)) Determine the wave's (a) amplitude (b) wavelength (c) frequency (d) speed of propagation and (e) direction of propagation
A certain transverse wave is described by the equation y(x,t) = (6.50 mm)sin2pi((t/0.0360 s)-(x/0.280m)) Determine the wave's (a) amplitude (b) wavelength (c) frequency (d) speed of propagation and (e) direction of propagation
Transverse waves on a string have wave speed 8.00 m/s, amplitude 0.0700 m, and wavelength 0.320...
Transverse waves on a string have wave speed 8.00 m/s, amplitude 0.0700 m, and wavelength 0.320 m. These waves travel in the x direction, and at t = 0 the x = 0 end of the string is at y = 0 and moving downward. A. Find the frequency of these waves. B. Find the period of these waves. C. Write the equation for y(x,t) describing these waves. D. Find the transverse displacement of a point on the string at x2...
Transverse waves on a string have wave speed 8.00 m/s, amplitude 0.0700 m, and wavelength 0.320...
Transverse waves on a string have wave speed 8.00 m/s, amplitude 0.0700 m, and wavelength 0.320 m. These waves travel in the x direction, and at t = 0 the x = 0 end of the string is at y = 0 and moving downward. A) Find the frequency of these waves. B) Find the transverse displacement of a point on the string at x2 = 0.120 m at time t2 = 5.00×10−2 s .
A transverse wave on a wire is given by D(x,t)=0.045sin(26x−ft) where D and x are in...
A transverse wave on a wire is given by D(x,t)=0.045sin(26x−ft) where D and x are in meters and t is in seconds. a) Find an expression for a wave with the same amplitude, wavelength, and frequency but traveling in the opposite direction. b)What is the speed of either wave?
A travelling transverse wave has an amplitude of 20 cm and is moving in the -x...
A travelling transverse wave has an amplitude of 20 cm and is moving in the -x direction. The wave speed was measured to be 4 m/s with a frequency (f) of 2.0 Hz. (a) What is the wavelength (λ) of the wave (2 points)? (b) What is the period (T) of the wave (2 points)? (c) What is the angular frequency w (2 points)? 4 (d) Using the notation learned in class, what is the equation of the wave? Remember...
A transverse wave on a wire is given by D(x, t) = 0.030 sin(27x - 567t)...
A transverse wave on a wire is given by D(x, t) = 0.030 sin(27x - 567t) where x is in meters and t is in seconds. a) Determine an expression for a wave with the same amplitude, wavelength, and frequency but traveling in the opposite direction. b) What is the speed of either wave?
4. Check the "Rulers" button. You should have the following settings for the wave. Amplitude =...
4. Check the "Rulers" button. You should have the following settings for the wave. Amplitude = 0.75 cm, frequency = 1.5 Hz, Tension-medium. O Fxed End O Loose End C) No End Restart Manual Osolate Pulse 2 4 O Slow Motion Norma Frequency (q)( 0.75 cm ) Damping Tension Rulers Lots Low HighTmr 1.50 Hz Reterence Uine change the Tension to high. 9. The speed of a wave in a string is not affected by frequency or amplitude: it is...
Find the speed of a wave by multiplying its frequency by its(a) period.(b) wavelength.(c) amplitude.(d) None...
Find the speed of a wave by multiplying its frequency by its(a) period.(b) wavelength.(c) amplitude.(d) None of these.
A transverse traveling wave on a taut wire has an amplitude of 200 cm and frequency...
A transverse traveling wave on a taut wire has an amplitude of 200 cm and frequency of 500 Hz. It travels with a speed of 196 m/s. (a) Write an equation for this wave if y (x = 5 cm, t = 0) = 0 mm. (b) Determine the vertical position of an element of the wire at t = 1.23 s, x = 0.25 cm. (c) What is the transverse velocity of an element of the wire at at...
Question 4 For waves that move at a constant wave speed, the particles in the medium do not accelerate. Select the correct answer O False O True Question 6 Two car horns are sounded creating two sound waves with frequencies that differ by a factor of three. How does the speed of the higher frequency sound wave compare to the lower frequency sound wave? Select the correct answer The higher frequency sound wave travels 3 times faster Your Answer O...
4. Check the "Rulers" button. You should have the following settings for the wave. Amplitude = 0.75 cm, frequency = 1.5 Hz, Tension-medium. O Fxed End O Loose End C) No End Restart Manual Osolate Pulse 2 4 O Slow Motion Norma Frequency (q)( 0.75 cm ) Damping Tension Rulers Lots Low HighTmr 1.50 Hz Reterence Uine change the Tension to high. 9. The speed of a wave in a string is not affected by frequency or amplitude: it is...
A transverse traveling wave on a taut wire has an amplitude of 200 cm and frequency of 500 Hz. It travels with a speed of 196 m/s. (a) Write an equation for this wave if y (x = 5 cm, t = 0) = 0 mm. (b) Determine the vertical position of an element of the wire at t = 1.23 s, x = 0.25 cm. (c) What is the transverse velocity of an element of the wire at at...
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