Find the wave height and wave length of a wave at depth of 2.0 m for...

A wave is approaching the coast from deep water. The period of the wave is T...

A wave is approaching the coast from deep water. The period of the wave is T = 8 s. 1. Calculate the wave angular frequency. 
 2. Calculate the wave length, L, and celerity, C, at h = 50, 20, 10, 5, and 2.5 m. Plot the variation of wave length versus water depth, and comment on it. 
 3. Can you develop a relationship between the wave length and water depth based on the results of part b? 
 *Use excel to...

Consider a standing wave in a container of water depth 3 m and length 20 m....

Consider a standing wave in a container of water depth 3 m and length 20 m. Assume gravitational constant g = 10 m/s^2. a.) What is the fundamental frequency (n=1) in rad/s? b.) What is the period for the first harmonic (n=2) in seconds? c.) What is the wave number for the second harmonic (n=3) in rad/m?

Consider a standing wave in a container of water depth 3 m and length 20 m....

Consider a standing wave in a container of water depth 3 m and length 20 m. Assume gravitational constant g = 10 m/s^2. a.) What is the fundamental frequency (n=1) in rad/s? b.) What is the period for the first harmonic (n=2) in seconds? c.) What is the wave number for the second harmonic (n=3) in rad/m? ANSWERS MUST BE GIVEN IN UNITS STATED IN EACH PROBLEM. SHOW ALL WORK:

Annual mean wave height and period at NDBC Buoy 44009 off Delaware Bay are 1.1 m...

Annual mean wave height and period at NDBC Buoy 44009 off Delaware Bay are 1.1 m and 5.5 s, respectively. The buoy is moored in 28 m of water. a. Are these deep-water waves or shallow water waves at the buoy? b. What is the maximum orbital velocity at the bottom? c. Is the computed umax large enough to exceed the movement threshold for 1 mm sand? d. What values of wave height would be required to move that sand...

An object with a height of 47 cm is placed 2.0 m in front of a...

An object with a height of 47 cm is placed 2.0 m in front of a convex mirror with a focal length of -0.46 m . A: Find the location of the image produced by the mirror using the mirror and magnification equations. (answer in Meters) B: Is it 1. In front of the mirror or 2. behind the mirror. C: Find the magnification of the image produced by the mirror using the mirror and magnification equations.

A vertical dam has a semicircular gate as shown in the figure. The total depth d...

A vertical dam has a semicircular gate as shown in the figure. The total depth d of the figure is 42 m, the height h of air above the water level is 6 m, and the width w of the gate is 8 m. Find the hydrostatic force against the gate. (Round your answer to the nearest whole number. Use 9.8 m/s2 for the acceleration due to gravity. Recall that the weight density of water is 1000 kg/m3.)

A cubic Aluminum container (RD = 2.7) has a side length of 1 m and thickness...

A cubic Aluminum container (RD = 2.7) has a side length of 1 m and thickness of 1 cm and is floating inside a water tank. The container is empty and open from the top (i.e.: has only 4 sides and one base). Assuming the density of water is 1000 kg/m3, determine: A. Height of the container floating above water. (1 mark) B. Volume of water we can pour into the container before it sinks. I B. f the empty...

The length ℓ, width w, and height h of a box change with time. At a...

The length ℓ, width w, and height h of a box change with time. At a certain instant the dimensions are ℓ = 2 m and w = h = 9 m, and ℓ and w are increasing at a rate of 7 m/s while h is decreasing at a rate of 8 m/s. At that instant find the rates at which the following quantities are changing. The length of a diagonal?

7. [1pt] A boxcar of length 8.00 m and height 2.40 m is at rest on...

7. [1pt] A boxcar of length 8.00 m and height 2.40 m is at rest on frictionless rails. The empty boxcar has a mass of 2800 kg. Inside the boxcar, located at the left end, is a tank containing 2550 kg of water. The tank is 1.90 m long and 2.40 m tall. The tank starts to leak, and the water fills the floor of the boxcar uniformly. Assume that all the water stays in the box car. After all...

A storage tank, open at the top, has a diameter 2.3 m and a height 1.8...

A storage tank, open at the top, has a diameter 2.3 m and a height 1.8 m . During a storm, the tank catches rain at the rate of 16.9 cm3/s. Simultaneously, water leaks out from the bottom of the tank through a hole that has a cross-sectional area A = 0.051 cm2. During a long rain storm, what is the maximum depth of water in the tank? Give your answer in units of m. PLEASE SHOW ALL STEPS