The wave base is typically assumed to be half the wavelength, which would make it 5 feet below the trough of the wave. This depth is where the wave's orbital motion decreases to nearly zero.
The wave base is typically half the wavelength of a wave. In this case, with a wavelength of 10 feet, the wave base would be around 5 feet deep. This is the depth below which water particles are not significantly affected by the wave passing above.
The wave base is typically calculated as half the wavelength, which would be 7.5 feet in this case. The wave base represents the depth at which water movement caused by the wave becomes negligible.
The wave base of a wave is typically half of the wavelength, so in this case, the wave base would be 7.5 feet deep. The wave base represents the depth at which water is affected by the wave's orbital motion and is used to calculate wave energy and erosion potential.
The volume of a square pyramid is given by the formula V = (1/3) * base area * height. Since the base is a square, the base area is given by side^2, where side is 15 feet in this case. Let the height be h. We are given that the volume is 1350 cubic feet. Thus, we can set up the equation (1/3) * 15^2 * h = 1350 and solve for h to find the height of the pyramid.
The volume of the cylindrical barrel would decrease since the volume of a cylinder is directly proportional to its height. The volume would decrease by a factor of 9/16, since volume is calculated by multiplying the base area (πr^2) by the height.
Tha wave base would be about 5 feet, as it is about 1/2 of the wavelength.
The wave base (the depth at which water moves) would be about 10 feet, or 1/2 the wavelength.
A wavelength of 15 feet yields a base of about 7.5 feet. The wave base of a wave (the depth to which it moves water) is about 1/2 the wavelength.
The wave base is typically half the wavelength of a wave. In this case, with a wavelength of 10 feet, the wave base would be around 5 feet deep. This is the depth below which water particles are not significantly affected by the wave passing above.
5
7.5 feet
The wave base is typically calculated as half the wavelength, which would be 7.5 feet in this case. The wave base represents the depth at which water movement caused by the wave becomes negligible.
The wave base of a wave is typically half of the wavelength, so in this case, the wave base would be 7.5 feet deep. The wave base represents the depth at which water is affected by the wave's orbital motion and is used to calculate wave energy and erosion potential.
Parallelograms have an area of the base times the height, so for this one it would be 2.5*1.25 or 3.125.
10 feet
A possibility would be A base of 8 feet and height of 5 feet. To find an area you simply multiply the length by the width, or in this case the base and height. 8x5=45.
To find the length of the base, you would have to multiply 182 by 2, then divide that by 13. The answer would be 28 feet for the length of the base.