A trough is filled with a liquid of density 810 kg/m3. The ends of the trough...

A trough is filled with a liquid of density 885 kg/m3. The ends of the trough...

A trough is filled with a liquid of density 885 kg/m3. The ends of the trough are equilateral triangles with sides 6 m long and vertex at the bottom. Find the hydrostatic force on one end of the trough. (Use 9.8 m/s2 for the acceleration due to gravity.)

A trough is filled with a liquid of density 830 kg/m3. The ends of the trough...

A trough is filled with a liquid of density 830 kg/m3. The ends of the trough are equilateral triangles with sides 6 m long and vertex at the bottom. Find the hydrostatic force on one end of the trough. (Use 9.8 m/s2 for the acceleration due to gravity.)

A trough is filled with a liquid of density 875 kg/m3. The ends of the trough...

A trough is filled with a liquid of density 875 kg/m3. The ends of the trough are equilateral triangles with sides 14 m long and vertex at the bottom. Find the hydrostatic force on one end of the trough. (Use 9.8 m/s2 for the acceleration due to gravity.) Answer in Newtons

a trough is filled with a liquid of density 870kg/m^3.the ends of the trough are equilateral...

a trough is filled with a liquid of density 870kg/m^3.the ends of the trough are equilateral triangles with sides 14 m long and vertex at the bottom .find the hydrostatic force on one end of the trough.

The ends of a trough are isoceles trapezoids. The top of the trough is 5m across...

The ends of a trough are isoceles trapezoids. The top of the trough is 5m across and the bottom is 1m; it is 2m deep. If the trough is filled to 1m with water, what is the hydrostatic force due to the water pressure on one end of the trough?

A tank is filled with liquid of density 1000 [kg/m3 ]. Its shape is obtained by...

A tank is filled with liquid of density 1000 [kg/m3 ]. Its shape is obtained by rotating the curve y =√x, 0 ≤ x ≤ 4, around the y-axis. Find the work that is required to pump all the liquid out of the tank, from the top of the tank. All the lengths are in units of meter [m]. Do not forget to use gravitational constant g = 9.8[m/s2 ].

A tank is 6 m long, 4 m wide, 4 m high, and contains kerosene with...

A tank is 6 m long, 4 m wide, 4 m high, and contains kerosene with density 820 kg/m3 to a depth of 3.5 m. (Use 9.8 m/s2 for the acceleration due to gravity.) (c) Find the hydrostatic force on one end of the tank.

A trough is 9 meters long, 2 meters wide, and 3 meters deep. The vertical cross-section...

A trough is 9 meters long, 2 meters wide, and 3 meters deep. The vertical cross-section of the trough parallel to an end is shaped like an isoceles triangle (with height 3 meters, and base, on top, of length 2 meters). The trough is full of water (density 1000 kg m 3 1000 kg m 3 ). Find the amount of work in joules required to empty the trough by pumping the water over the top. (Note: Use g =...

A liquid of density 1394 kg/m3 flows with speed 2.48 m/s into a pipe of diameter...

A liquid of density 1394 kg/m3 flows with speed 2.48 m/s into a pipe of diameter 0.21 m . The diameter of the pipe decreases to 0.05 m at its exit end. The exit end of the pipe is 5.43 m lower than the entrance of the pipe, and the pressure at the exit of the pipe is 1.5 atm. Applying Bernoulli’s principle, what is the pressure P1 at the entrance end of the pipe? Assume the viscosity of the...

1A) Use integration to find the amount of fluid force exerted against one side of the...

1A) Use integration to find the amount of fluid force exerted against one side of the submerged triangular plate An equilateral triangular plate with sides 8 m is submerged vertically in water so that the base is even with the surface. Express the hydrostatic force against one side of the plate as an integral and evaluate it. (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...