10.3) Sketch the particle motion of a propagating internal wave in relation to its direction of...

Consider a shallow-water wave of length 1.5km propagating in an ocean that is 62.5m deep ....

Consider a shallow-water wave of length 1.5km propagating in an ocean that is 62.5m deep . The speed of the wave is 25m/s and the period T= 60 sec . a) Now suppose that this wave propagates into a region in which there is a current of strength U that opposes the wave propagation. Explain how this modifies the dispersion relation and the wave speed. b) Assuming that the wave’s frequency ω remains constant, create a plot of the wavelength...

A wave travels along a taut string in the positive x-axis direction. Its wavelength is 40...

A wave travels along a taut string in the positive x-axis direction. Its wavelength is 40 cm and its speed of propagation through the string is 80 m / s. The amplitude of the wave is 0.60 cm. At t = 0 the point of the chord at x = 0 is at the point of maximum oscillation amplitude, y = + A. a) Write the equation of the wave in the form of sine [y = A sin (kx...

A wave travels along a taut string in the positive x-axis direction. Its wavelength is 40...

A wave travels along a taut string in the positive x-axis direction. Its wavelength is 40 cm and its speed of propagation through the string is 80 m / s. The amplitude of the wave is 0.60 cm. At t = 0 the point of the chord at x = 0 is at the point of maximum oscillation amplitude, y = + A. a) Write the equation of the wave in the form of sine [y = A sin (kx...

2. A ball of negligible size and a given mass is attached to a vertical spring...

2. A ball of negligible size and a given mass is attached to a vertical spring that obeys Hooke's law. At equilibrium, its position and gravitational potential energy is chosen to be "zero". The mass is set in oscillation in a vertical direction. At what point during the oscillation will the ball-earth-spring system have the most negative gravitational potential energy? A. The gravitational potential energy will be the most negative at its lowest position from the earth. B. The gravitational...

Equations of motion are used to describe the velocity (speed and direction) as well as distance...

Equations of motion are used to describe the velocity (speed and direction) as well as distance travelled by projectiles when they are launched or thrown. The following equation is used to model this model this movement: ℎ = −16?2 + ?0? + ℎ0 A ball is launched upward at 48 feet/second from a platform that is 100 feet high. Find the maximum height the ball reaches and how long it will take to get there. a) Substitute the appropriate values...

The wave functions of two waves traveling in the same direction are given below. The two...

The wave functions of two waves traveling in the same direction are given below. The two waves have the same frequency, wavelength, and amplitude, but they differ in their phase constant. y1 (x,t) = 2 sin⁡(2πx ‒ 20πt), and y2 (x,t) = 2 sin(2πx ‒ 20πt + φ), a)where, y is in centimetres, x is in meters, and t is in seconds. Which of the following wave functions represents the resultant wave due to the interference between the two waves:...

19. The Pointing S vector indicates the direction in which the energy of an electromagnetic wave...

19. The Pointing S vector indicates the direction in which the energy of an electromagnetic wave is transported per unit area per unit time. Radiation intensity I is defined as the average magnitude of the Pointing vector, Savg. Which is equal to Savg = I = Erms2 / c µo, where c is the speed of light. What will be the Erms value on the Moon's surface of solar radiation if the power per unit area is 1,372 Watts /...

Q1 i) : Dealing with atmospheric pressure, if one observes the Mercury level rises to 70...

Q1 i) : Dealing with atmospheric pressure, if one observes the Mercury level rises to 70 cm. Predict the atmospheric pressure of the air in mm of Hg. Can you represent it in bar? How can you evaluate the height of the Mercury column in a perfect barometer for standard pressure? Comparing both results, evaluate the percentage difference. Water is used instead of Mercury in a perfect barometer, can you assess the volume of water in SI unit, if cross...

1. Motion of an object depends on its velocity only. True False 2. A car with...

1. Motion of an object depends on its velocity only. True False 2. A car with a mass of 2500 kg is traveling at a speed of 30 m/s due east. Choose the most appropriate answer to its momentum. a. 30 m/s due east b. 30 m/s c. 75,000 kgm/s d. 75,000 kgm/s due east 3. A car is traveling at 70 mph and then is involved in an accident with a head-on collision into a very solid wall. As...

In addition to the buoyant force, an object moving in a liquid experiences a linear drag...

In addition to the buoyant force, an object moving in a liquid experiences a linear drag force Fdrag = (bv, direction opposite the motion), where b is a constant. For a sphere of radius R, the drag constant can be shown to be b = 6πηR, where η is the viscosity of the liquid. Consider a sphere of radius R and density ρ that is released from rest at the surface of a liquid with density ρf. a. Find an...