A harmonic wave moving in the positive x direction has an amplitude of 4.1 cm, a speed of 45.0 cm/s, and a wavelength of 26.0 cm. Assume that the displacement is zero at x = 0 and t = 0. Calculate the displacement (in cm) due to the wave at x = 0.0 cm, t = 2.0 s.
Calculate the displacement due to the wave at x = 10.0 cm, t =
20.0 s.
A harmonic wave moving in the positive x direction has an amplitude of 4.1 cm, a...
A harmonic wave moving in the positive x direction has an amplitude of 4.7 cm, a speed of 44.0 cm/s, and a wavelength of 21.0 cm. Assume that the displacement is zero at x = 0 and t = 0. Calculate the displacement (in cm) due to the wave at x = 0.0 cm, t = 2.0 s. Calculate the displacement due to the wave at x = 10.0 cm, t = 20.0 s
(c15p2) A harmonic wave moving in the positive x direction has an amplitude of 2.4 cm, a speed of 43.0 cm/s, and a wavelength of 22.0 cm. Assume that the displacement is zero at x = 0 and t = 0. Calculate the displacement (in cm) due to the wave at x = 0.0 cm, t = 2.0 s. Submit Answer Tries 0/7 Calculate the displacement due to the wave at x = 10.0 cm, t = 20.0 s. Submit...
(c15p2) A harmonic wave moving in the positive x direction has an amplitude of 2.6 cm, a speed of 50.0 cm/s, and a wavelength of 31.0 cm. Assume that the displacement is zero at x = 0 and t = 0. Calculate the displacement (in cm) due to the wave at x = 0.0 cm, t = 2.0 s. -2.57 cm You are correct. Your receipt no. is 165-5366 Help: Receipt Previous Tries Calculate the displacement due to the wave...
A harmonic wave moving in the positive x direction has an amplitude of 3.7 cm, a speed of 42.0 cm/s, and a wavelength of 42.0 cm. Assume that the displacement is zero at x = 0 and t = 0. Calculate the displacement due to the wave at x = 10.0 cm, t = 20.0 s.
A sinusoidal wave traveling in the positive X direction has an amplitude of 10.0 cm, a wavelength of 25.0 cm, and a frequency of 5.00 Hz. c) wave function of time
A wave has a wavelength of 3.0 m, a frequency of 25.0 Hz, and an amplitude of 14.0 cm. The wave travels in the positive x-direction and has a displacement of zero at t = 0 and x = 0. How many complete oscillations has the wave made at t = 20.0 s and x = 4.2 m?
A sinusoidal wave traveling in the positive X direction has an amplitude of 0.10 m cm, a wavelength of 0.25 m, and a frequency of 50 Hz. Find the followings: For each question you Must show the symbol, formula, calculations, result, and unit Period. Angular frequency. wave number. Speed of the wave (phase velocity) Maximum speed of vibration (transverse speed) of the source of the wave Maximum acceleration of the vibration (transverse acceleration) The equation for the moving wave.
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...
3) A sinusoidal wave traveling in the +x direction has a wavelength of 20 cm, a period of 10 s. has an amplitude of 3 cm and has no displacement from equilibrium at x and t-0. a) Write an equation describing this wave. b) What is the speed of the wave? c) What is the transverse speed of the wave at x = 0 when t-5s?
13. I The displacement of a wave traveling in the positive x-direction is D(x, t) (3.5 cm) sin(2.7x 1241), where x is in m and t is in s. What are the (a) frequency, (b) wavelength, and (c) speed of this wave? 13. I The displacement of a wave traveling in the positive x-direction is D(x, t) (3.5 cm) sin(2.7x 1241), where x is in m and t is in s. What are the (a) frequency, (b) wavelength, and (c)...