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A wave is modeled by the wave function 2Tt y(x, t) (0.30 m) sin 4.50 7m(x+18.00t...
A certain transverse wave is described by y(x,t)=Bcos[2π(xL−tτ)], where B = 5.40 mm , L =...
A certain transverse wave is described by y(x,t)=Bcos[2π(xL−tτ)], where B = 5.40 mm , L = 30.0 cm , and τ = 3.60×10−2 s . Determine the wave's amplitude. Determine the wave's wavelength. Determine the wave's frequency. Determine the wave's speed of propagation. Determine the wave's direction of propagation. Answers : 1- +x direction 2- -x direction
9.I A certain transverse wave is described by the equation (0.036 -0.280m) or y(x, t)-(6.50 mm)...
9.I A certain transverse wave is described by the equation (0.036 -0.280m) or y(x, t)-(6.50 mm) sin 2 Determine this wave's (a) amplitude, (b) wavelength, (c) frequen (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
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 transverse wave on a string is modeled with the wave function y(x, t) (0.80 m)sin[(0.85...
A transverse wave on a string is modeled with the wave function y(x, t) (0.80 m)sin[(0.85 m)x (1.70 s)t 0.20]. (Indicate the direction with the signs of your answers.) (a) Find the wave velocity (in m/s). m/s (b) Find the position (in cm) in the y-direction, the velocity (in cm/s) perpendicular to the motior of the wave, and the acceleration (in cm/s2) perpendicular to the motion of the wave of a small segment of the string centered at x 0.40...
The equation describing a transverse wave on a string is y(x,t)=( 2.50mm )sin[( 168s?1 )t?( 42.1m?1...
The equation describing a transverse wave on a string is y(x,t)=( 2.50mm )sin[( 168s?1 )t?( 42.1m?1 )x]. A. Find the wavelength of this wave. B. Find the frequency of this wave. C. Find the amplitude of this wave. D. Find the speed of motion of the wave. E. Find the direction of motion of the wave. F. Find the transverse displacement of a point on the string when t = 0.160s and at a position x = 0.140m.
A transverse wave is given by the following equation: y (x,t) = (2.45 cm) cos [(0.420...
A transverse wave is given by the following equation: y (x,t) = (2.45 cm) cos [(0.420 rad/cm)x + (5.20 rad/s)t] a) What are the wave's amplitude, frequency, period, and wavelength? b) What is the direction of wave travel, and what is the speed? c) What is the displacement of a particle at x = 5.00 m, at t = 1.00 min? Hint: pay attention to units!
A transverse wave on a string is described by the following wave function. Y = 0.095...
A transverse wave on a string is described by the following wave function. Y = 0.095 sin (1x + 5nt) where x and y are in meters and t is in seconds. (a) Determine the transverse speed at t = 0.300 s for an element of the string located at x = 1.30 m m/s (b) Determine the transverse acceleration at t = 0.300 s for an element of the string located at x + 1.30 m. m/s2 (c) What...
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.
A transverse wave on a taunt string is modeled with the wave function: y_(x, t) =...
A transverse wave on a taunt string is modeled with the wave function: y_(x, t) = 0.5m sin (5.0 m^-1 - 2.50 s^-1 t) Determine: (i) the amplitude of the wave. (ii) the wavelength of the wave, (iii) speed of the wave, (iv) the period of the wave, (v) the frequency of the wave. (a) state the laws of reflection and refraction.(b) Ray diagrams arc used to determine where the image of an object is formed. Using a scale of...
The equation of a transverse wave traveling along a very long string is y = 3.96...
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?
9.I A certain transverse wave is described by the equation (0.036 -0.280m) or y(x, t)-(6.50 mm) sin 2 Determine this wave's (a) amplitude, (b) wavelength, (c) frequen (d) speed of propagation, and (e) direction of propagation
A transverse wave on a string is modeled with the wave function y(x, t) (0.80 m)sin[(0.85 m)x (1.70 s)t 0.20]. (Indicate the direction with the signs of your answers.) (a) Find the wave velocity (in m/s). m/s (b) Find the position (in cm) in the y-direction, the velocity (in cm/s) perpendicular to the motior of the wave, and the acceleration (in cm/s2) perpendicular to the motion of the wave of a small segment of the string centered at x 0.40...
A transverse wave on a string is described by the following wave function. Y = 0.095 sin (1x + 5nt) where x and y are in meters and t is in seconds. (a) Determine the transverse speed at t = 0.300 s for an element of the string located at x = 1.30 m m/s (b) Determine the transverse acceleration at t = 0.300 s for an element of the string located at x + 1.30 m. m/s2 (c) What...
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.
A transverse wave on a taunt string is modeled with the wave function: y_(x, t) = 0.5m sin (5.0 m^-1 - 2.50 s^-1 t) Determine: (i) the amplitude of the wave. (ii) the wavelength of the wave, (iii) speed of the wave, (iv) the period of the wave, (v) the frequency of the wave. (a) state the laws of reflection and refraction.(b) Ray diagrams arc used to determine where the image of an object is formed. Using a scale of...
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