Demonstration of pressure in liquids practice exercise 2

Which of the following is the best example of Pascal’s Principle in everyday life?

Which of the following is the best example of Pascal’s Principle in everyday life? (1 mark)

Which of the following is the best example of Pascal’s Principle in everyday life? (1 mark)

A liquid of density 1200 kg/m³ fills a container to a height of 4 m. Using g = 10 N/kg, calculate the pressure at the base.

A liquid of density 1200 kg/m³ fills a container to a height of 4 m. Using g = 10 N/kg, calculate the pressure at the base. (1 mark)

A liquid of density 1200 kg/m³ fills a container to a height of 4 m. Using g = 10 N/kg, calculate the pressure at the base. (1 mark)

A liquid of density 1200 kg/m³ fills a container to a height of 4 m. Using g = 10 N/kg, calculate the pressure at the base. (1 mark)

Scenario: The diagram shows a U-shaped container with two connected arms of equal width. The left arm contains oil of density 800 kg/m³ to a height of 0.5 m, and the right arm contains water of density 1000 kg/m³ to a height of 0.4 m. Both arms are closed at the top and connected to a horizontal piston system.If an additional force is applied to the oil column via the piston, which of the following best describes the change in water level in the right arm? Assume g = 10 N/kg.

The diagram shows a U-shaped container with two connected arms of equal width. The left arm contains oil of density 800 kg/m³ to a height of 0.5 m, and the right arm contains water of density 1000 kg/m³ to a height of 0.4 m. Both arms are closed at the top and connected to a horizontal piston system. If an additional force is applied to the oil column via the piston, which of the following best describes the change in water level in the right arm? Assume g = 10 N/kg. (1 mark)

The diagram shows a U-shaped container with two connected arms of equal width. The left arm contains oil of density 800 kg/m³ to a height of 0.5 m, and the right arm contains water of density 1000 kg/m³ to a height of 0.4 m. Both arms are closed at the top and connected to a horizontal piston system. If an additional force is applied to the oil column via the piston, which of the following best describes the change in water level in the right arm? Assume g = 10 N/kg. (1 mark)

The diagram below shows a U-shaped container with two connected arms of equal width. The left arm contains oil of density 800 kg/m³ to a height of 0.5 m, and the right arm contains water of density 1000 kg/m³ to a height of 0.4 m. Both arms are closed at the top and connected to a horizontal piston system. If an additional force is applied to the oil column via the piston, which of the following best describes the change in water level in the right arm? Assume g = 10 N/kg. (1 mark)

If the mass of a fluid column is 800 kg, the cross-sectional area is 2 m², and gravitational acceleration is 10 N/kg, what is the pressure at the base?

If the mass of a fluid column is 800 kg, the cross-sectional area is 2 m², and gravitational acceleration is 10 N/kg, what is the pressure at the base? (1 mark)

If the mass of a fluid column is 800 kg, the cross-sectional area is 2 m², and gravitational acceleration is 10 N/kg, what is the pressure at the base? (1 mark)

If the mass of a fluid column is 800 kg, the cross-sectional area is 2 m², and gravitational acceleration is 10 N/kg, what is the pressure at the base? (1 mark)

In the formula \( P = h \rho g \), which variable represents the height of the fluid column?

In the formula \( P = h \rho g \), which variable represents the height of the fluid column? (1 mark)

In the formula \( P = h \rho g \), which variable represents the height of the fluid column? (1 mark)

In the formula \( P = h \rho g \), which variable represents the height of the fluid column? (1 mark)

The diagram shows a vertical container with three holes at different depths. Which hole will produce water that shoots the farthest?

The diagram shows a vertical container with three holes at different depths. Which hole will produce water that shoots the farthest? (1 mark)

The diagram shows a vertical container with three holes at different depths. Which hole will produce water that shoots the farthest? (1 mark)

The diagram shows a vertical container with three holes at different depths. Which hole will produce water that shoots the farthest? (1 mark)

What does Pascal’s Principle state?

What does Pascal’s Principle state? (1 mark)

What does Pascal’s Principle state? (1 mark)

What is pressure in liquids?

What is pressure in liquids? (1 mark)

What is pressure in liquids? (1 mark)

What is the SI unit of pressure in liquids? Give both the name and symbol.

What is the SI unit of pressure in liquids? Give both the name and symbol. (1 mark)

What is the SI unit of pressure in liquids? Give both the name and symbol. (1 mark)

Which formula is used to calculate pressure in liquids?

Which formula is used to calculate pressure in liquids? (1 mark)

Which formula is used to calculate pressure in liquids? (1 mark)

Which formula is used to calculate pressure in liquids? (1 mark)