If an transversal wave is given with D(x,t)= 0.015sin(25x-1200t) where t is in seconds and x...

A wave in a string has a wave function given by: y (x, t) = (0.0200m)...

A wave in a string has a wave function given by: y (x, t) = (0.0200m) sin [(6.35 m) x + (2.63 s) t] where t is expressed in seconds and x in meters. Determine: a) the amplitude of the wave b) the frequency of the wave c) distance of wave of the wave d) the speed of the wave

A wave on a string has a wave function given by: y (x, t) = (0.300m)...

A wave on a string has a wave function given by: y (x, t) = (0.300m) sin [(4.35 m^-1 ) x + (1.63 s^-1 ) t] where t is expressed in seconds and x in meters. Determine: (10 points) a) the amplitude of the wave b) the frequency of the wave c) wavelength of the wave d) the speed of the wave

A harmonic transverse wave function is given by y(x, t) = (0.800 m)sin(16.4x + 10.2t) where...

A harmonic transverse wave function is given by y(x, t) = (0.800 m)sin(16.4x + 10.2t) where all values are in the appropriate SI units. (Assume x is in meters and t is in seconds.) (a) What are the propagation speed and direction of the wave's travel? speed     m/s direction     ---Select--- +x −x +y −y +z −z (b) What are the wave's period and wavelength? period     s wavelength     m (c) What is the amplitude? m

A transverse wave on a string is given by the formula D(x,t)=0.11sin(3.3x?18.0t), where D and x...

A transverse wave on a string is given by the formula D(x,t)=0.11sin(3.3x?18.0t), where D and x are in m and t is in s. a) At t=0.17s, what is the transverse displacement of the point on the string where x=0.54m? Important hint: Does it matter whether your calculator is set to degrees or radians (deg or rad) for this problem? If yes, which setting should you use? b) At t=0.17s, what is the (transverse) velocity of the point on the...

the position of an object in one dimension is given by X(t)=A+Bt+Ct^2, where x is in...

the position of an object in one dimension is given by X(t)=A+Bt+Ct^2, where x is in meters and t is in seconds. find the velocity and acceleration at 3 seconds. what are the units for A, B, and C?

A wave on a string is described by the equation y(x, t) = 2*cos(2 π(x/4m- t...

A wave on a string is described by the equation y(x, t) = 2*cos(2 π(x/4m- t /.1 s)) where x is in meters and t is in seconds. a. Is the wave travelling to the right or to the left? _________ b. What is the wave frequency? __________ c. What is the wavelength? ___________ d. What is the wave speed? _________ e. At t=0.50 seconds what is the displacement of the string at x=0.20 meters. _________

A particle's velocity along the x-axis is described by v(t)= At + Bt2, where t is...

A particle's velocity along the x-axis is described by v(t)= At + Bt2, where t is in seconds, v is in m/s, A= 0.85 m/s2, and B= -0.69 m/s3. Acceleration= -0.53 m/s2 @ t=0 and the Displacement= -2.58 m b/w t=1s to t=3s. What is the distance traveled in meters, by the particle b/w times t=1s and t=3s?

The wave function of a wave is given by the equation D(x,t)=(0.2m)sin(2.0x−4.0t+π), where x is in...

The wave function of a wave is given by the equation D(x,t)=(0.2m)sin(2.0x−4.0t+π), where x is in metres and t is in seconds. a. What is the phase constant of the wave? b. What is the phase of the wave at t=1.0s and x=0.5m? c. At a given instant, what is the phase difference between two points that are 0.5m apart? d. At what speed does a crest of the wave move?

A sinusoidal wave travels down a long string. The y displacement of the string is given...

A sinusoidal wave travels down a long string. The y displacement of the string is given at right, as a function of both x position along the string and time t. Positions x and y are measured in meters, t is in seconds. Find the wavelength, frequency, and period of this waveform. y(x, t)=ysin(36.9t+2.43x) If x is to the right, what direction is this wave traveling? At time t = 0.0165 s, and a position x = 0.913 m, what...

The position of a particle moving with constant acceleration is given by x(t) = 4t2 +...

The position of a particle moving with constant acceleration is given by x(t) = 4t2 + 3t + 4 where x is in meters and t is in seconds. (a) Calculate the average velocity of this particle between t = 2 seconds and t = 7 seconds. (b) At what time during this interval is the average velocity equal to the instantaneous velocity? (c) How does this time compare to the average time for this interval? a. It is larger....