A cylindrical water tank has water flowing in at I cubic meters per second. Let A...

A cylindrical tank with a large diameter is filled with water to a depth D =...

A cylindrical tank with a large diameter is filled with water to a depth D = 0.405 m. A hole of cross-sectional area A = 5.62 cm^2 in the bottom of the tank allows water to drain out. (a) What is the rate at which water flows out, in cubic meters per second? (b) At what distance below the bottom of the tank is the cross-sectional area of the stream equal to one-half the area of the hole?

Consider a tank full of water, cylindrical in shape, 3.0 meters high and 1.0 meter in...

Consider a tank full of water, cylindrical in shape, 3.0 meters high and 1.0 meter in diameter. Suppose there is a hole of area 1.0 cm2 at the bottom of the tank. Calculate (a) the speed with which water is discharged, then (b) the volume of water discharged each second.

A cylindrical tank of cross-sectional area equal to A has one inlet where water is flowing...

A cylindrical tank of cross-sectional area equal to A has one inlet where water is flowing in, and no exits. The mass flow rate going into the tank is represented with. The height ?of the water inside the tank is represented by L, which is increasing with time. a. Use the general conservation of mass equation to show that the following equation is true for this problem (assuming that density varies with time):1??/???+1??/???=?/???. Include all steps. b. For the same...

The two equations below express conservation of energy and conservation of mass for water flowing from...

The two equations below express conservation of energy and conservation of mass for water flowing from a circular hole of radius 2 centimeters at the bottom of a cylindrical tank of radius 20 centimeters. In these equations, Δ m is the mass that leaves the tank in time Δt, v is the velocity of the water flowing through the hole, and h is the height of the water in the tank at time t. g is the accelertion of gravity,...

Suppose you have a cylindrical water tank with a height of S meters with a height...

Suppose you have a cylindrical water tank with a height of S meters with a height of 8 meters and a radius of 2 meters and that it stands upright on its circular base and is half-full of water. Determine the work required to empty the tank by pumping the water to a level of 2 meters above the top of the tank.

You are assigned the design of a cylindrical, pressurized water tank for a future colony on...

You are assigned the design of a cylindrical, pressurized water tank for a future colony on Mars, where the acceleration due to gravity is 3.71 meters per second per second. The pressure at the surface of the water will be 125 kPa , and the depth of the water will be 14.2 m . The pressure of the air in the building outside the tank will be 87.0 kPa . Find the net downward force on the tank's flat bottom,...

You are assigned the design of a cylindrical, pressurized water tank for a future colony on...

You are assigned the design of a cylindrical, pressurized water tank for a future colony on Mars, where the acceleration due to gravity is 3.71 meters per second per second. The pressure at the surface of the water will be 140 kPa , and the depth of the water will be 13.6 m . The pressure of the air in the building outside the tank will be 85.0 kPa . Find the net downward force on the tank's flat bottom,...

Darcy's law gives us the volume flow rate-volume per time (for example, cubic meters per day,...

Darcy's law gives us the volume flow rate-volume per time (for example, cubic meters per day, m^3/day). Another way to express volume is on a per-unit-area basis. For example, if we have a 1-m^3 cube, we know its base is 1 m^2 the cross-sectional area of the cube-and its height is 1m. If we fill the cube with water, we can say we have 1m of water per unit area. Darcy's law can be rearranged to calculate the volume flow...

Suppose water is leaking from a tank through a circular hole of area Ah at its...

Suppose water is leaking from a tank through a circular hole of area Ah at its bottom. When water leaks through a hole, friction and contraction of the stream near the hole reduce the volume of water leaving the tank per second to cAh 2gh , where c (0 < c < 1) is an empirical constant. A tank in the form of a right-circular cone standing on end, vertex down, is leaking water through a circular hole in its...

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