![y(x, t) = (0.15 m) sin |(3.0 m~) x + (90 s-1) t] This expression describes a wave on a stretched string with tension of 12 N](http://img.homeworklib.com/questions/eb875c90-f6c2-11ea-9e29-69a228f76535.png?x-oss-process=image/resize,w_560)
Homework Answers
Find the speed using angular frequency and wave number given in
the wave equation and use that to find the linear density as shown
below
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y(x, t) = (0.15 m) sin |(3.0 m~') x + (90 s-1) t] This expression describes...
The equation of a transverse wave on a string is y = (2.0 mm) sin[(21 m−1)x...
The equation of a transverse wave on a string is y = (2.0 mm) sin[(21 m−1)x − (590 s−1)t]. The tension in the string is 16 N. (a) What is the wave speed? m/s (b) Find the linear density of this string. g/m
The equation of a transverse wave on a string is y = (1.6 mm) sin[(21 m-1)x + (280...
The equation of a transverse wave on a string is y = (1.6 mm) sin[(21 m-1)x + (280 s-1)t] The tension in the string is 14 N. (a) What is the wave speed? (b) Find the linear density of this string.
The equation of a transverse wave on a string is y = (1.0 mm) sin((16 m-?)X...
The equation of a transverse wave on a string is y = (1.0 mm) sin((16 m-?)X + (310 s 1)t] The tension in the string is 45 N. (a) What is the wave speed? (b) Find the linear density of this string. (a) Number Units (b) Number Units
The equation that describes a transverse wave on a string is y = (0.0120 m)sin[(394 rad/s)t...
The equation that describes a transverse wave on a string is y = (0.0120 m)sin[(394 rad/s)t - (3.00 rad/m)x] where y is the displacement of a string particle and x is the position of the particle on the string. The wave is traveling in the +x direction. What is the speed v of the wave?
2. Analyze this equation as well: y (x, t)- (0.9 cm) sin [(1.2 m) x (5.0...
2. Analyze this equation as well: y (x, t)- (0.9 cm) sin [(1.2 m) x (5.0 s) t risntward e204 Determine the wave's amplitude, wavelength, frequency, speed of wave, direction of propagation. If the string has a mass/unit length of mu-0.012 kg/m, determine the tension in the string.
By wiggling one end, a sinusoidal wave is made to travel along a stretched string that...
By wiggling one end, a sinusoidal wave is made to travel along a stretched string that has a mass per unit length of 22.0 g/m. The wave may be described by the wave function y 0.20 sin (0.90x-42) where x and y are in meters and t s in seconds. 1. (a) Determine the speed of the wave. Is the wave moving in the +x direction or the -x direction? b) What is the tension in the stretched string? (c)...
A transverse harmonic wave travels on a rope according to the following expression: y(x, t) =...
A transverse harmonic wave travels on a rope according to the
following expression:
y(x, t) = A cos(kx − ωt − φ)
The mass density of the rope is μ = 0.113 kg/m. x and y are
measured in meters and t in seconds. Using the graphs at of y vs t
at x=0 and y vs x at t=0 shown below, answer the following
questions:
(a) What is the value for the wave number, k, for the expression
y(x,t)?...
If y(x, t) = (5.4 mm)sin(kx + (575 rad/s)t + ϕ) describes a wave traveling along...
If y(x, t) = (5.4 mm)sin(kx
+ (575 rad/s)t + ϕ) describes a wave traveling
along a string, how much time does any given point on the string
take to move between displacements y = +2.0 mm and
y = −2.0 mm?
If y(x, t) = (5.4 mm)sin(kx + (575 rad/s)t + φ) describes a wave traveling along a string, how much time does any given point on the string take to move between displacements y = +2.0 mm and...
The linear density of a string is 1.5 x 10^-4 kg/m. A transverse wave on the...
The linear density of a string is 1.5 x 10^-4 kg/m. A transverse wave on the string is described by the equation y = (0.036 m) sin[(1.6 m^-1)x + (23 s^-1)t] What are the wave speed and the tension in the string?
help~~~~~plz plz Awave on a string bs descibed by Dr,t) (2.00cm)x sin(12.57rad/m)x-(638rad/s)], where xis in meters.a...
help~~~~~plz plz
Awave on a string bs descibed by Dr,t) (2.00cm)x sin(12.57rad/m)x-(638rad/s)], where xis in meters.a , where x is in meters a nd t is in seconds. The linear density of the string is 5.00 g/m. What are (a) the string tension? (b) the maximum displacement of a point on the string? (c) the maximum speed of a point on the string? [CAREFUL: This is not the same thing as the wave speed!]
The equation of a transverse wave on a string is y = (1.0 mm) sin((16 m-?)X + (310 s 1)t] The tension in the string is 45 N. (a) What is the wave speed? (b) Find the linear density of this string. (a) Number Units (b) Number Units
2. Analyze this equation as well: y (x, t)- (0.9 cm) sin [(1.2 m) x (5.0 s) t risntward e204 Determine the wave's amplitude, wavelength, frequency, speed of wave, direction of propagation. If the string has a mass/unit length of mu-0.012 kg/m, determine the tension in the string.
By wiggling one end, a sinusoidal wave is made to travel along a stretched string that has a mass per unit length of 22.0 g/m. The wave may be described by the wave function y 0.20 sin (0.90x-42) where x and y are in meters and t s in seconds. 1. (a) Determine the speed of the wave. Is the wave moving in the +x direction or the -x direction? b) What is the tension in the stretched string? (c)...
A transverse harmonic wave travels on a rope according to the
following expression:
y(x, t) = A cos(kx − ωt − φ)
The mass density of the rope is μ = 0.113 kg/m. x and y are
measured in meters and t in seconds. Using the graphs at of y vs t
at x=0 and y vs x at t=0 shown below, answer the following
questions:
(a) What is the value for the wave number, k, for the expression
y(x,t)?...
If y(x, t) = (5.4 mm)sin(kx
+ (575 rad/s)t + ϕ) describes a wave traveling
along a string, how much time does any given point on the string
take to move between displacements y = +2.0 mm and
y = −2.0 mm?
If y(x, t) = (5.4 mm)sin(kx + (575 rad/s)t + φ) describes a wave traveling along a string, how much time does any given point on the string take to move between displacements y = +2.0 mm and...
The linear density of a string is 1.5 x 10^-4 kg/m. A transverse wave on the string is described by the equation y = (0.036 m) sin[(1.6 m^-1)x + (23 s^-1)t] What are the wave speed and the tension in the string?
help~~~~~plz plz
Awave on a string bs descibed by Dr,t) (2.00cm)x sin(12.57rad/m)x-(638rad/s)], where xis in meters.a , where x is in meters a nd t is in seconds. The linear density of the string is 5.00 g/m. What are (a) the string tension? (b) the maximum displacement of a point on the string? (c) the maximum speed of a point on the string? [CAREFUL: This is not the same thing as the wave speed!]
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