The great limestones caverns were formed by dripping water. If water droplets of 10 ml fall...

Problem 1 Continued: A conical tank with height 10 m and radius 8 m is used...

Problem 1 Continued: A conical tank with height 10 m and radius 8 m is used to hold ale. Assume that the density of ale is 1000 kg/m3. b) Find the fluid force exerted on the side of the full tank.

25 mL of Water were added to 15 mL of the solution that was formed from...

25 mL of Water were added to 15 mL of the solution that was formed from 35 mL of 0.40 M HOAc combined with 10 mL of 1.0 M NaOAc. Calculate the following when the pH was found to be 4.22 a) H+ b) OAc- c) HOAc d) Ka e) pKa

WOODEN CYLINDER VALUES mass (kg) 0.0354 weight (N) 0.34692 length (m) 0.290 diameter (m) 0.0163 volume...

WOODEN CYLINDER VALUES mass (kg) 0.0354 weight (N) 0.34692 length (m) 0.290 diameter (m) 0.0163 volume (m3) 0.0002086 density (kg/m3) 169.7 WATER VALUES density (kg/m3) 1000 Vi (m3) 180 ml V (m3) 213 ml ?V (m3) 33 ml weight of displaced water (N) 0.3234 BRASS CYLINDER VALUES weight (N) 2.002 length (m) 0.0605 diameter (m) 0.0192 radius (m) 0.0095 volume (m3) 0.00001751 WA (N) 1.765 ALUMINUM CYLINDER VALUES weight (N) 0.621 length (m) 0.0605 diameter (m) 0.0192 radius (m) 0.0096...

. A conical tank of with radius 5 m and height 10 m is filled with...

. A conical tank of with radius 5 m and height 10 m is filled with water. Calculate the work against gravity required to pump water (with density 1000 kg/m3 ) through a spout of 1 meter in height located at the top of the tank.

Suppose you were to drop the aluminum block in air. It “sinks” to the floor. The...

Suppose you were to drop the aluminum block in air. It “sinks” to the floor. The density of air at sea level and at 59 degrees Fahrenheit = 15 degrees Celsius is about 1 kg/m3 . So what is the weight of the air displaced by the block? I.e. what is the buoyancy force acting on the block? How does this compare to the weight of the block? Weight of block is 64.3g.

A conical tank of diameter 6 m and height 10 m is filled with water. Compute...

A conical tank of diameter 6 m and height 10 m is filled with water. Compute for the work needed to pump all the water 2 m above the tank. The water has a density of 1000 kg per cubic meter.

A barge has dimensions of length, width, and height equal to 10 m, 6 m, and...

A barge has dimensions of length, width, and height equal to 10 m, 6 m, and 4 m, respectively. A pride of lions, all with mass of 230 kg, are investigating the enticing odor of sardine oil that is on the floor of the barge, possibly from the shoes of an unsuspecting zookeeper. The barge is floating in fresh water, which has a density of 1000 kg/m3. When the barge is empty, it floats with 80% of its volume submerged....

A pump is pumping water at a flow rate of Q = 125 Liter per minute...

A pump is pumping water at a flow rate of Q = 125 Liter per minute against a head of 18 meters. Assuming the mechanical efficiency of 85 %, what is the shaft power of the pump required for the pump in Watts? Assume water density at 1000 kg/m3 and gravitational acceleration g = 9.81 m/s2.

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 triangular plate with base 6 m and height 2 m is submerged vertically in water...

A triangular plate with base 6 m and height 2 m is submerged vertically in water such that the highest vertex of the plate is 4 meters below the surface and the base is horizontal to the surface. 4 m ( from water surface to top of triangle ) 6 m ( triangle width ) 2 m (triangle height ) Express the hydrostatic force against one side of the plate as an integral and evaluate it. (Round your answer to...