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a11fluidStatics_buoyantForce_v1

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A cylinder with a radius of 0.22 m and a length of 2.2 m is held so that the top circular face is 4.8 m below the water. The mass of the block is 826.0 kg. The mass density of water is 1000kg/m^3. What is the pressure at the top face of the cylinder?

3.20E4 Pa
3.88E4 Pa
4.70E4 Pa
5.70E4 Pa
6.90E4 Pa

copies
===2===
{<!--a11fluidStatics_buoyantForce_1-->A cylinder with a radius of 0.25 m and a length of 2.5 m is held so that the top circular face is 4.2 m below the water. The mass of the block is 853.0 kg. The mass density of water is 1000kg/m^3. What is the pressure at the top face of the cylinder?}
- 3.40E4 Pa
+ 4.12E4 Pa
- 4.99E4 Pa
- 6.04E4 Pa
- 7.32E4 Pa
===3===
{<!--a11fluidStatics_buoyantForce_1-->A cylinder with a radius of 0.38 m and a length of 2.2 m is held so that the top circular face is 3.8 m below the water. The mass of the block is 903.0 kg. The mass density of water is 1000kg/m^3. What is  the pressure at the top face of the cylinder?}
+ 3.72E4 Pa
- 4.51E4 Pa
- 5.47E4 Pa
- 6.62E4 Pa
- 8.02E4 Pa
===4===
{<!--a11fluidStatics_buoyantForce_1-->A cylinder with a radius of 0.38 m and a length of 3.6 m is held so that the top circular face is 4.2 m below the water. The mass of the block is 829.0 kg. The mass density of water is 1000kg/m^3. What is  the pressure at the top face of the cylinder?}
- 3.40E4 Pa
+ 4.12E4 Pa
- 4.99E4 Pa
- 6.04E4 Pa
- 7.32E4 Pa
===5===
{<!--a11fluidStatics_buoyantForce_1-->A cylinder with a radius of 0.28 m and a length of 2.9 m is held so that the top circular face is 4.6 m below the water. The mass of the block is 880.0 kg. The mass density of water is 1000kg/m^3. What is  the pressure at the top face of the cylinder?}
- 2.54E4 Pa
- 3.07E4 Pa
- 3.72E4 Pa
+ 4.51E4 Pa
- 5.46E4 Pa
===6===
{<!--a11fluidStatics_buoyantForce_1-->A cylinder with a radius of 0.24 m and a length of 3.8 m is held so that the top circular face is 3.5 m below the water. The mass of the block is 853.0 kg. The mass density of water is 1000kg/m^3. What is  the pressure at the top face of the cylinder?}
- 2.83E4 Pa
+ 3.43E4 Pa
- 4.16E4 Pa
- 5.03E4 Pa
- 6.10E4 Pa
===7===
{<!--a11fluidStatics_buoyantForce_1-->A cylinder with a radius of 0.29 m and a length of 2.8 m is held so that the top circular face is 4.6 m below the water. The mass of the block is 952.0 kg. The mass density of water is 1000kg/m^3. What is the pressure at the top face of the cylinder?}
- 3.07E4 Pa
- 3.72E4 Pa
+ 4.51E4 Pa
- 5.46E4 Pa
- 6.62E4 Pa
===8===
{<!--a11fluidStatics_buoyantForce_1-->A cylinder with a radius of 0.33 m and a length of 2.9 m is held so that the top circular face is 4.1 m below the water. The mass of the block is 912.0 kg. The mass density of water is 1000kg/m^3. What is  the pressure at the top face of the cylinder?}
- 2.26E4 Pa
- 2.74E4 Pa
- 3.32E4 Pa
+ 4.02E4 Pa
- 4.87E4 Pa
===9===
{<!--a11fluidStatics_buoyantForce_1-->A cylinder with a radius of 0.31 m and a length of 3.5 m is held so that the top circular face is 4.8 m below the water. The mass of the block is 933.0 kg. The mass density of water is 1000kg/m^3. What is  the pressure at the top face of the cylinder?}
- 3.88E4 Pa
+ 4.70E4 Pa
- 5.70E4 Pa
- 6.90E4 Pa
- 8.37E4 Pa
===10===
{<!--a11fluidStatics_buoyantForce_1-->A cylinder with a radius of 0.29 m and a length of 2.3 m is held so that the top circular face is 4.7 m below the water. The mass of the block is 968.0 kg. The mass density of water is 1000kg/m^3. What is  the pressure at the top face of the cylinder?}
- 2.59E4 Pa
- 3.14E4 Pa
- 3.80E4 Pa
+ 4.61E4 Pa
- 5.58E4 Pa
===11===
{<!--a11fluidStatics_buoyantForce_1-->A cylinder with a radius of 0.28 m and a length of 2.6 m is held so that the top circular face is 4.1 m below the water. The mass of the block is 831.0 kg. The mass density of water is 1000kg/m^3. What is  the pressure at the top face of the cylinder?}
- 2.74E4 Pa
- 3.32E4 Pa
+ 4.02E4 Pa
- 4.87E4 Pa
- 5.90E4 Pa
===12===
{<!--a11fluidStatics_buoyantForce_1-->A cylinder with a radius of 0.38 m and a length of 2.3 m is held so that the top circular face is 4.5 m below the water. The mass of the block is 909.0 kg. The mass density of water is 1000kg/m^3. What is  the pressure at the top face of the cylinder?}
- 2.48E4 Pa
- 3.00E4 Pa
- 3.64E4 Pa
+ 4.41E4 Pa
- 5.34E4 Pa
===13===
{<!--a11fluidStatics_buoyantForce_1-->A cylinder with a radius of 0.25 m and a length of 3.5 m is held so that the top circular face is 3.3 m below the water. The mass of the block is 922.0 kg. The mass density of water is 1000kg/m^3. What is  the pressure at the top face of the cylinder?}
+ 3.23E4 Pa
- 3.92E4 Pa
- 4.75E4 Pa
- 5.75E4 Pa
- 6.97E4 Pa

a11fluidStatics_buoyantForce_v1

[edit | edit source]

A cylinder with a radius of 0.22 m and a length of 2.2 m is held so that the top circular face is 4.8 m below the water. The mass of the block is 826.0 kg. The mass density of water is 1000kg/m^3. What is the buoyant force?

2.71E3 N
3.28E3 N
3.97E3 N
4.81E3 N
5.83E3 N

copies
===2===
{<!--a11fluidStatics_buoyantForce_2-->A cylinder with a radius of 0.25 m and a length of 2.5 m is held so that the top circular face is 4.2 m below the water. The mass of the block is 853.0 kg. The mass density of water is 1000kg/m^3. What is the buoyant force?}
- 2.71E3 N
- 3.28E3 N
- 3.97E3 N
+ 4.81E3 N
- 5.83E3 N
===3===
{<!--a11fluidStatics_buoyantForce_2-->A cylinder with a radius of 0.38 m and a length of 2.2 m is held so that the top circular face is 3.8 m below the water. The mass of the block is 903.0 kg. The mass density of water is 1000kg/m^3. What is the buoyant force?}
- 8.07E3 N
+ 9.78E3 N
- 1.18E4 N
- 1.44E4 N
- 1.74E4 N
===4===
{<!--a11fluidStatics_buoyantForce_2-->A cylinder with a radius of 0.38 m and a length of 3.6 m is held so that the top circular face is 4.2 m below the water. The mass of the block is 829.0 kg. The mass density of water is 1000kg/m^3. What is  the buoyant force?}
- 1.09E4 N
- 1.32E4 N
+ 1.60E4 N
- 1.94E4 N
- 2.35E4 N
===5===
{<!--a11fluidStatics_buoyantForce_2-->A cylinder with a radius of 0.28 m and a length of 2.9 m is held so that the top circular face is 4.6 m below the water. The mass of the block is 880.0 kg. The mass density of water is 1000kg/m^3. What is  the buoyant force?}
+ 7.00E3 N
- 8.48E3 N
- 1.03E4 N
- 1.24E4 N
- 1.51E4 N
===6===
{<!--a11fluidStatics_buoyantForce_2-->A cylinder with a radius of 0.24 m and a length of 3.8 m is held so that the top circular face is 3.5 m below the water. The mass of the block is 853.0 kg. The mass density of water is 1000kg/m^3. What is  the buoyant force?}
- 5.56E3 N
+ 6.74E3 N
- 8.16E3 N
- 9.89E3 N
- 1.20E4 N
===7===
{<!--a11fluidStatics_buoyantForce_2-->A cylinder with a radius of 0.29 m and a length of 2.8 m is held so that the top circular face is 4.6 m below the water. The mass of the block is 952.0 kg. The mass density of water is 1000kg/m^3. What is  the buoyant force?}
- 4.94E3 N
- 5.98E3 N
+ 7.25E3 N
- 8.78E3 N
- 1.06E4 N
===8===
{<!--a11fluidStatics_buoyantForce_2-->A cylinder with a radius of 0.33 m and a length of 2.9 m is held so that the top circular face is 4.1 m below the water. The mass of the block is 912.0 kg. The mass density of water is 1000kg/m^3. What is  the buoyant force?}
+ 9.72E3 N
- 1.18E4 N
- 1.43E4 N
- 1.73E4 N
- 2.09E4 N
===9===
{<!--a11fluidStatics_buoyantForce_2-->A cylinder with a radius of 0.31 m and a length of 3.5 m is held so that the top circular face is 4.8 m below the water. The mass of the block is 933.0 kg. The mass density of water is 1000kg/m^3. What is  the buoyant force?}
- 5.82E3 N
- 7.06E3 N
- 8.55E3 N
+ 1.04E4 N
- 1.25E4 N
===10===
{<!--a11fluidStatics_buoyantForce_2-->A cylinder with a radius of 0.29 m and a length of 2.3 m is held so that the top circular face is 4.7 m below the water. The mass of the block is 968.0 kg. The mass density of water is 1000kg/m^3. What is  the buoyant force?}
+ 5.96E3 N
- 7.21E3 N
- 8.74E3 N
- 1.06E4 N
- 1.28E4 N
===11===
{<!--a11fluidStatics_buoyantForce_2-->A cylinder with a radius of 0.28 m and a length of 2.6 m is held so that the top circular face is 4.1 m below the water. The mass of the block is 831.0 kg. The mass density of water is 1000kg/m^3. What is  the buoyant force?}
- 5.18E3 N
+ 6.28E3 N
- 7.60E3 N
- 9.21E3 N
- 1.12E4 N
===12===
{<!--a11fluidStatics_buoyantForce_2-->A cylinder with a radius of 0.38 m and a length of 2.3 m is held so that the top circular face is 4.5 m below the water. The mass of the block is 909.0 kg. The mass density of water is 1000kg/m^3. What is  the buoyant force?}
- 6.97E3 N
- 8.44E3 N
+ 1.02E4 N
- 1.24E4 N
- 1.50E4 N
===13===
{<!--a11fluidStatics_buoyantForce_2-->A cylinder with a radius of 0.25 m and a length of 3.5 m is held so that the top circular face is 3.3 m below the water. The mass of the block is 922.0 kg. The mass density of water is 1000kg/m^3. What is  the buoyant force?}
- 5.56E3 N
+ 6.73E3 N
- 8.16E3 N
- 9.89E3 N
- 1.20E4 N

a11fluidStatics_buoyantForce_v1

[edit | edit source]

A cylinder with a radius of 0.22 m and a length of 2.2 m is held so that the top circular face is 4.8 m below the water. The mass of the block is 826.0 kg. The mass density of water is 1000kg/m^3. What is the force exerted by the water at the top surface?

7.15E3 N
9.00E3 N
1.13E4 N
1.43E4 N
1.80E4 N

copies
===2===
{<!--a11fluidStatics_buoyantForce_3-->A cylinder with a radius of 0.25 m and a length of 2.5 m is held so that the top circular face is 4.2 m below the water. The mass of the block is 853.0 kg. The mass density of water is 1000kg/m^3. What is the force exerted by the water at the top surface?}
+ 8.08E3 N
- 1.02E4 N
- 1.28E4 N
- 1.61E4 N
- 2.03E4 N
===3===
{<!--a11fluidStatics_buoyantForce_3-->A cylinder with a radius of 0.38 m and a length of 2.2 m is held so that the top circular face is 3.8 m below the water. The mass of the block is 903.0 kg. The mass density of water is 1000kg/m^3. What is the force exerted by the water at the top surface?}
- 1.07E4 N
- 1.34E4 N
+ 1.69E4 N
- 2.13E4 N
- 2.68E4 N
===4===
{<!--a11fluidStatics_buoyantForce_3-->A cylinder with a radius of 0.38 m and a length of 3.6 m is held so that the top circular face is 4.2 m below the water. The mass of the block is 829.0 kg. The mass density of water is 1000kg/m^3. What is the force exerted by the water at the top surface?}
- 1.48E4 N
+ 1.87E4 N
- 2.35E4 N
- 2.96E4 N
- 3.73E4 N
===5===
{<!--a11fluidStatics_buoyantForce_3-->A cylinder with a radius of 0.28 m and a length of 2.9 m is held so that the top circular face is 4.6 m below the water. The mass of the block is 880.0 kg. The mass density of water is 1000kg/m^3. What is  the force exerted by the water at the top surface?}
+ 1.11E4 N
- 1.40E4 N
- 1.76E4 N
- 2.22E4 N
- 2.79E4 N
===6===
{<!--a11fluidStatics_buoyantForce_3-->A cylinder with a radius of 0.24 m and a length of 3.8 m is held so that the top circular face is 3.5 m below the water. The mass of the block is 853.0 kg. The mass density of water is 1000kg/m^3. What is  the force exerted by the water at the top surface?}
- 3.11E3 N
- 3.92E3 N
- 4.93E3 N
+ 6.21E3 N
- 7.81E3 N
===7===
{<!--a11fluidStatics_buoyantForce_3-->A cylinder with a radius of 0.29 m and a length of 2.8 m is held so that the top circular face is 4.6 m below the water. The mass of the block is 952.0 kg. The mass density of water is 1000kg/m^3. What is  the force exerted by the water at the top surface?}
+ 1.19E4 N
- 1.50E4 N
- 1.89E4 N
- 2.38E4 N
- 2.99E4 N
===8===
{<!--a11fluidStatics_buoyantForce_3-->A cylinder with a radius of 0.33 m and a length of 2.9 m is held so that the top circular face is 4.1 m below the water. The mass of the block is 912.0 kg. The mass density of water is 1000kg/m^3. What is  the force exerted by the water at the top surface?}
- 6.89E3 N
- 8.67E3 N
- 1.09E4 N
+ 1.37E4 N
- 1.73E4 N
===9===
{<!--a11fluidStatics_buoyantForce_3-->A cylinder with a radius of 0.31 m and a length of 3.5 m is held so that the top circular face is 4.8 m below the water. The mass of the block is 933.0 kg. The mass density of water is 1000kg/m^3. What is  the force exerted by the water at the top surface?}
- 7.12E3 N
- 8.96E3 N
- 1.13E4 N
+ 1.42E4 N
- 1.79E4 N
===10===
{<!--a11fluidStatics_buoyantForce_3-->A cylinder with a radius of 0.29 m and a length of 2.3 m is held so that the top circular face is 4.7 m below the water. The mass of the block is 968.0 kg. The mass density of water is 1000kg/m^3. What is  what is the force exerted by the water at the top surface?}
- 6.10E3 N
- 7.68E3 N
- 9.67E3 N
+ 1.22E4 N
- 1.53E4 N
===11===
{<!--a11fluidStatics_buoyantForce_3-->A cylinder with a radius of 0.28 m and a length of 2.6 m is held so that the top circular face is 4.1 m below the water. The mass of the block is 831.0 kg. The mass density of water is 1000kg/m^3. What is  the force exerted by the water at the top surface?}
- 6.24E3 N
- 7.86E3 N
+ 9.90E3 N
- 1.25E4 N
- 1.57E4 N
===12===
{<!--a11fluidStatics_buoyantForce_3-->A cylinder with a radius of 0.38 m and a length of 2.3 m is held so that the top circular face is 4.5 m below the water. The mass of the block is 909.0 kg. The mass density of water is 1000kg/m^3. What is  the force exerted by the water at the top surface?}
- 1.59E4 N
+ 2.00E4 N
- 2.52E4 N
- 3.17E4 N
- 3.99E4 N
===13===
{<!--a11fluidStatics_buoyantForce_3-->A cylinder with a radius of 0.25 m and a length of 3.5 m is held so that the top circular face is 3.3 m below the water. The mass of the block is 922.0 kg. The mass density of water is 1000kg/m^3. What is  the force exerted by the water at the top surface?}
- 4.01E3 N
- 5.04E3 N
+ 6.35E3 N
- 7.99E3 N
- 1.01E4 N

a11fluidStatics_buoyantForce_v1

[edit | edit source]

A cylinder with a radius of 0.22 m and a length of 2.2 m is held so that the top circular face is 4.8 m below the water. The mass of the block is 826.0 kg. The mass density of water is 1000kg/m^3. What,what is the force exerted by the fluid on the bottom of the cylinder?

1.04E4 Pa
1.31E4 Pa
1.65E4 Pa
2.08E4 Pa
2.62E4 Pa

copies
===2===
{<!--a11fluidStatics_buoyantForce_4-->A cylinder with a radius of 0.25 m and a length of 2.5 m is held so that the top circular face is 4.2 m below the water. The mass of the block is 853.0 kg. The mass density of water is 1000kg/m^3. What is the force exerted by the fluid on the bottom of the cylinder?}
- 1.02E4 Pa
+ 1.29E4 Pa
- 1.62E4 Pa
- 2.04E4 Pa
- 2.57E4 Pa
===3===
{<!--a11fluidStatics_buoyantForce_4-->A cylinder with a radius of 0.38 m and a length of 2.2 m is held so that the top circular face is 3.8 m below the water. The mass of the block is 903.0 kg. The mass density of water is 1000kg/m^3. What is the force exerted by the fluid on the bottom of the cylinder?}
- 1.68E4 Pa
- 2.12E4 Pa
+ 2.67E4 Pa
- 3.36E4 Pa
- 4.23E4 Pa
===4===
{<!--a11fluidStatics_buoyantForce_4-->A cylinder with a radius of 0.38 m and a length of 3.6 m is held so that the top circular face is 4.2 m below the water. The mass of the block is 829.0 kg. The mass density of water is 1000kg/m^3. What is  the force exerted by the fluid on the bottom of the cylinder?}
- 1.74E4 Pa
- 2.19E4 Pa
- 2.75E4 Pa
+ 3.47E4 Pa
- 4.37E4 Pa
===5===
{<!--a11fluidStatics_buoyantForce_4-->A cylinder with a radius of 0.28 m and a length of 2.9 m is held so that the top circular face is 4.6 m below the water. The mass of the block is 880.0 kg. The mass density of water is 1000kg/m^3. What is  the force exerted by the fluid on the bottom of the cylinder?}
- 1.14E4 Pa
- 1.44E4 Pa
+ 1.81E4 Pa
- 2.28E4 Pa
- 2.87E4 Pa
===6===
{<!--a11fluidStatics_buoyantForce_4-->A cylinder with a radius of 0.24 m and a length of 3.8 m is held so that the top circular face is 3.5 m below the water. The mass of the block is 853.0 kg. The mass density of water is 1000kg/m^3. What is  the force exerted by the fluid on the bottom of the cylinder?}
- 8.17E3 Pa
- 1.03E4 Pa
+ 1.29E4 Pa
- 1.63E4 Pa
- 2.05E4 Pa
===7===
{<!--a11fluidStatics_buoyantForce_4-->A cylinder with a radius of 0.29 m and a length of 2.8 m is held so that the top circular face is 4.6 m below the water. The mass of the block is 952.0 kg. The mass density of water is 1000kg/m^3. What is  the force exerted by the fluid on the bottom of the cylinder?}
- 1.52E4 Pa
+ 1.92E4 Pa
- 2.41E4 Pa
- 3.04E4 Pa
- 3.82E4 Pa
===8===
{<!--a11fluidStatics_buoyantForce_4-->A cylinder with a radius of 0.33 m and a length of 2.9 m is held so that the top circular face is 4.1 m below the water. The mass of the block is 912.0 kg. The mass density of water is 1000kg/m^3. What is  is the force exerted by the fluid on the bottom of the cylinder?}
+ 2.35E4 Pa
- 2.95E4 Pa
- 3.72E4 Pa
- 4.68E4 Pa
- 5.90E4 Pa
===9===
{<!--a11fluidStatics_buoyantForce_4-->A cylinder with a radius of 0.31 m and a length of 3.5 m is held so that the top circular face is 4.8 m below the water. The mass of the block is 933.0 kg. The mass density of water is 1000kg/m^3. What is  the force exerted by the fluid on the bottom of the cylinder?}
- 1.95E4 Pa
+ 2.46E4 Pa
- 3.09E4 Pa
- 3.89E4 Pa
- 4.90E4 Pa
===10===
{<!--a11fluidStatics_buoyantForce_4-->A cylinder with a radius of 0.29 m and a length of 2.3 m is held so that the top circular face is 4.7 m below the water. The mass of the block is 968.0 kg. The mass density of water is 1000kg/m^3. What is  the force exerted by the fluid on the bottom of the cylinder?}
- 1.44E4 Pa
+ 1.81E4 Pa
- 2.28E4 Pa
- 2.87E4 Pa
- 3.62E4 Pa
===11===
{<!--a11fluidStatics_buoyantForce_4-->A cylinder with a radius of 0.28 m and a length of 2.6 m is held so that the top circular face is 4.1 m below the water. The mass of the block is 831.0 kg. The mass density of water is 1000kg/m^3. What is  the force exerted by the fluid on the bottom of the cylinder?}
- 8.11E3 Pa
- 1.02E4 Pa
- 1.28E4 Pa
+ 1.62E4 Pa
- 2.04E4 Pa
===12===
{<!--a11fluidStatics_buoyantForce_4-->A cylinder with a radius of 0.38 m and a length of 2.3 m is held so that the top circular face is 4.5 m below the water. The mass of the block is 909.0 kg. The mass density of water is 1000kg/m^3. What is  the force exerted by the fluid on the bottom of the cylinder?}
+ 3.02E4 Pa
- 3.81E4 Pa
- 4.79E4 Pa
- 6.03E4 Pa
- 7.59E4 Pa
===13===
{<!--a11fluidStatics_buoyantForce_4-->A cylinder with a radius of 0.25 m and a length of 3.5 m is held so that the top circular face is 3.3 m below the water. The mass of the block is 922.0 kg. The mass density of water is 1000kg/m^3. What is  the force exerted by the fluid on the bottom of the cylinder?}
- 8.26E3 Pa
- 1.04E4 Pa
+ 1.31E4 Pa
- 1.65E4 Pa
- 2.07E4 Pa