What Is The Force Exerted On The Bottom Of A Water Tank Of Uniform Cross Sectional Area 2m² And Height 5m²

Introduction

In this article, we will explore the concept of force exerted on the bottom of a water tank. The force exerted on the bottom of a water tank is a fundamental concept in physics, particularly in the field of fluid mechanics. Understanding this concept is crucial in designing and building water tanks, as well as in understanding the behavior of fluids in various situations.

What is Fluid Pressure?

Fluid pressure is the force exerted by a fluid (liquid or gas) on an object or surface. In the case of a water tank, the fluid pressure is exerted by the water on the bottom of the tank. The pressure exerted by a fluid is determined by the weight of the fluid and the area over which it is exerted.

The Formula for Fluid Pressure

The formula for fluid pressure is given by:

P = ρgh

Where:

• P is the pressure exerted by the fluid
• ρ is the density of the fluid
• g is the acceleration due to gravity
• h is the height of the fluid above the point of interest

The Force Exerted on the Bottom of a Water Tank

To calculate the force exerted on the bottom of a water tank, we need to consider the pressure exerted by the water on the bottom of the tank. The pressure exerted by the water is given by the formula:

P = ρgh

Since the water tank has a uniform cross-sectional area of 2m², the pressure exerted by the water on the bottom of the tank is constant throughout the tank.

Calculating the Force Exerted on the Bottom of the Water Tank

To calculate the force exerted on the bottom of the water tank, we need to multiply the pressure exerted by the water by the area of the bottom of the tank.

F = P × A

Where:

• F is the force exerted on the bottom of the tank
• P is the pressure exerted by the water
• A is the area of the bottom of the tank

Given Values

• Uniform cross-sectional area of the water tank: 2m²
• Height of the water tank: 5m
• Density of water: 1000 kg/m³
• Acceleration due to gravity: 9.8 m/s²

Calculating the Force Exerted on the Bottom of the Water Tank

Using the formula for fluid pressure, we can calculate the pressure exerted by the water on the bottom of the tank:

P = ρgh = 1000 kg/m³ × 9.8 m/s² × 5m = 49000 Pa

Now, we can calculate the force exerted on the bottom of the tank:

F = P × A = 49000 Pa × 2m² = 98000 N

Conclusion

In this article, we have discussed the concept of force exerted on the bottom of a water tank. We have used the formula for fluid pressure to calculate the pressure exerted by the water on the bottom of the tank, and then multiplied it by the area of the bottom of the tank to calculate the force exerted on the bottom of the tank. The result is a force of 98000 N exerted on the bottom of the tank.

References

• [1] Fluid Mechanics by Frank M. White
• [2] Physics for Scientists and Engineers by Paul A. Tipler
• [3] Engineering Mechanics by Russell C. Hibbeler

Additional Information

• The force exerted on the bottom of a water tank is a critical factor in designing and building water tanks.
• The pressure exerted by a fluid is determined by the weight of the fluid and the area over which it is exerted.
• The formula for fluid pressure is given by P = ρgh, where ρ is the density of the fluid, g is the acceleration due to gravity, and h is the height of the fluid above the point of interest.
  Q&A: Force Exerted on the Bottom of a Water Tank =============================================

Introduction

In our previous article, we discussed the concept of force exerted on the bottom of a water tank. We calculated the force exerted on the bottom of a water tank with a uniform cross-sectional area of 2m² and a height of 5m. In this article, we will answer some frequently asked questions related to the force exerted on the bottom of a water tank.

Q: What is the force exerted on the bottom of a water tank with a height of 10m?

A: To calculate the force exerted on the bottom of a water tank with a height of 10m, we need to use the formula for fluid pressure:

P = ρgh

Where:

• P is the pressure exerted by the fluid
• ρ is the density of the fluid
• g is the acceleration due to gravity
• h is the height of the fluid above the point of interest

Using the given values, we can calculate the pressure exerted by the water on the bottom of the tank:

P = ρgh = 1000 kg/m³ × 9.8 m/s² × 10m = 98000 Pa

Now, we can calculate the force exerted on the bottom of the tank:

F = P × A = 98000 Pa × 2m² = 196000 N

Q: What is the effect of the density of the fluid on the force exerted on the bottom of the water tank?

A: The density of the fluid has a significant effect on the force exerted on the bottom of the water tank. The formula for fluid pressure is given by:

P = ρgh

Where:

• P is the pressure exerted by the fluid
• ρ is the density of the fluid
• g is the acceleration due to gravity
• h is the height of the fluid above the point of interest

As we can see from the formula, the density of the fluid is directly proportional to the pressure exerted by the fluid. Therefore, if the density of the fluid increases, the pressure exerted by the fluid will also increase, resulting in a greater force exerted on the bottom of the tank.

Q: What is the effect of the acceleration due to gravity on the force exerted on the bottom of the water tank?

A: The acceleration due to gravity has a significant effect on the force exerted on the bottom of the water tank. The formula for fluid pressure is given by:

P = ρgh

Where:

• P is the pressure exerted by the fluid
• ρ is the density of the fluid
• g is the acceleration due to gravity
• h is the height of the fluid above the point of interest

As we can see from the formula, the acceleration due to gravity is directly proportional to the pressure exerted by the fluid. Therefore, if the acceleration due to gravity increases, the pressure exerted by the fluid will also increase, resulting in a greater force exerted on the bottom of the tank.

Q: What is the effect of the height of the fluid on the force exerted on the bottom of the water tank?

A: The height of the fluid has a significant effect on the force exerted on the bottom of the water tank. The formula for fluid pressure is given by:

P = ρgh

Where:

• P is the pressure exerted by the fluid
• ρ is the density of the fluid
• g is the acceleration due to gravity
• h is the height of the fluid above the point of interest

As we can see from the formula, the height of the fluid is directly proportional to the pressure exerted by the fluid. Therefore, if the height of the fluid increases, the pressure exerted by the fluid will also increase, resulting in a greater force exerted on the bottom of the tank.

Q: What is the force exerted on the bottom of a water tank with a non-uniform cross-sectional area?

A: To calculate the force exerted on the bottom of a water tank with a non-uniform cross-sectional area, we need to use the formula for fluid pressure:

P = ρgh

Where:

• P is the pressure exerted by the fluid
• ρ is the density of the fluid
• g is the acceleration due to gravity
• h is the height of the fluid above the point of interest

However, since the cross-sectional area is non-uniform, we need to integrate the pressure over the area to get the total force exerted on the bottom of the tank.

Conclusion

In this article, we have answered some frequently asked questions related to the force exerted on the bottom of a water tank. We have discussed the effect of the density of the fluid, the acceleration due to gravity, and the height of the fluid on the force exerted on the bottom of the tank. We have also discussed how to calculate the force exerted on the bottom of a water tank with a non-uniform cross-sectional area.

References

• [1] Fluid Mechanics by Frank M. White
• [2] Physics for Scientists and Engineers by Paul A. Tipler
• [3] Engineering Mechanics by Russell C. Hibbeler

Additional Information

• The force exerted on the bottom of a water tank is a critical factor in designing and building water tanks.
• The pressure exerted by a fluid is determined by the weight of the fluid and the area over which it is exerted.
• The formula for fluid pressure is given by P = ρgh, where ρ is the density of the fluid, g is the acceleration due to gravity, and h is the height of the fluid above the point of interest.