Pressure Science.pdf

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Pressure Between Solids

Definition of Pressure:

Pressure is the force exerted per unit area.

Pressure=Forcce / area , Measured in Pascals (Pa), where 1 Pa = 1 N/m².

Factors Affecting Pressure Between Solids:
o Force: The greater the force applied, the greater the pressure.
o Area: The smaller the area of contact, the greater the pressure (inverse
relationship).
Examples:
o Sharp objects like knives and needles exert high pressure because the force
is concentrated over a small area.
o Snowshoes spread the weight over a larger area, reducing pressure and
preventing sinking into snow.
Applications in Everyday Life:
o Car tires: Wider tires distribute the vehicle's weight over a larger area,
reducing pressure on the ground.
o Bed of nails: If enough nails are used, the body’s weight is distributed across
the nails, reducing pressure at each point and preventing injury.

2. Pressure in Liquids

Definition:

Pressure in liquids is caused by the weight of the liquid and acts equally in all
directions.

Hydrostatic Pressure:

The pressure at a given point in a liquid increase with the depth due to the weight of the
liquid above it.

Characteristics of Pressure in Liquids:
o Increases with depth.
o Depends on the density of the liquid.
 o Acts equally in all directions (important in understanding how submarines
and hydraulic systems work).
Examples:
o Water pressure increases as you dive deeper into the ocean.
o Dams are thicker at the bottom to withstand greater water pressure.

3. Pressure in Gases

Gas Pressure:

Caused by the movement and collision of gas particles with the walls of their
container.

Factors Affecting Gas Pressure:
o Temperature: Higher temperature increases the speed of gas particles,
leading to more collisions and higher pressure.
o Volume: Reducing the volume of a container increases the frequency of
collisions, increasing pressure
o Number of Particles: More gas particles result in more collisions and higher
pressure (directly proportional).
Examples:
o A balloon expands when air is blown into it, as the gas pressure inside
increases.
o A car tire feels harder in hot weather because the gas pressure inside the tire
increases with temperature.

4. Particles on the Move

Particle Theory of Matter:

All matter is made up of tiny particles (atoms, molecules, ions) in constant motion.
This movement differs in solids, liquids, and gases:

o Solids: Particles vibrate in place, tightly packed in a fixed structure.
o Liquids: Particles move more freely, but are still close together.
o Gases: Particles move rapidly and freely, spreading out to fill any available
space.
 Kinetic Energy and Temperature:
o The temperature of a substance is directly related to the average kinetic
energy of its particles.
o Higher temperature = faster particle movement (increased kinetic energy).
Diffusion:

The process by which particles spread out from an area of high concentration to low
concentration due to their random motion.

Brownian Motion:

The random movement of particles in a fluid (liquid or gas) as they collide with other
particles. Visible under a microscope when tiny particles (like pollen) move in water.

Applications:
o Smelling perfume across the room (gas diffusion).
o Mixing food coloring in water (liquid diffusion).