Pressure
Cambridge IGCSE Physics (0625) · Unit 1: Motion, forces and energy · 8 flashcards
Pressure is topic 1.8 in the Cambridge IGCSE Physics (0625) syllabus , positioned in Unit 1 — Motion, forces and energy , alongside Physical quantities and measurement techniques, Motion and Mass and weight.
This topic is examined in Paper 1 (multiple-choice) and Papers 3/4 (theory), plus Paper 5 or Paper 6 (practical / alternative to practical).
The deck below contains 8 flashcards — covering the precise wording mark schemes reward.
What the Cambridge 0625 syllabus says
Official 2026-2028 specThese are the exact learning objectives Cambridge sets for this topic. Match the command word (Describe, Explain, State, etc.) in your answer to score full marks.
- Define Define pressure as force per unit area; recall and use the equation
- Describe Describe how pressure varies with force and area in the context of everyday examples
- Describe Describe, qualitatively, how the pressure beneath the surface of a liquid changes with depth and density of the liquid
- Recall Recall and use the equation for the change in pressure beneath the surface of a liquid Supplement
A rectangular block with dimensions 0.2 m x 0.1 m rests on a table. If the block weighs 4 N, calculate the pressure exerted on the table.
Formula: Pressure = Force / Area
Calculation:
Area = 0.2 m * 0.1 m = 0.02 m²
Pressure = 4 N / 0.02 m² = 200 N/m² or 200 Pa
Answer: The pressure exerted on the table is 200 Pa. Pressure is force distributed over an area.
A sharp knife cuts better than a blunt knife. Explain why, in terms of pressure.
Pressure is defined as force per unit area (P = F/A). A sharp knife has a much smaller surface area in contact with the object being cut compared to a blunt knife. Therefore, for the same applied force, the sharp knife exerts a much larger pressure. This greater pressure allows the sharp knife to more easily overcome the resistance of the material being cut.
A rectangular block of wood weighing 20 N rests on a table. The block is 0.5 m long and 0.2 m wide. Calculate the pressure exerted on the table by the block.
Pressure = Force / Area
Force = 20 N
Area = length x width = 0.5 m x 0.2 m = 0.1 m²
Pressure = 20 N / 0.1 m² = 200 N/m² or 200 Pa
The pressure is calculated by dividing the force (weight of the block) by the area of contact between the block and the table.
Explain why it is easier to cut something with a sharp knife than with a blunt knife, even if you apply the same force.
Pressure = Force / Area. A sharper knife has a smaller surface area in contact with the object being cut. Since pressure is inversely proportional to area, a smaller area means a greater pressure for the same applied force. This greater pressure allows the sharp knife to cut more easily.
Describe how the pressure at a point in a liquid changes as the depth increases. Explain your answer.
The pressure increases with depth. This is because the weight of the liquid above that point increases, and pressure is force (weight) per unit area. Therefore, a greater weight of liquid above means a greater pressure at that point.
A submarine is submerged at a depth of 50 m in seawater. The density of seawater is 1025 kg/m³. State two factors that affect the pressure on the submarine.
1. The depth of the submarine in the water
2. The density of the seawater
Calculate the pressure at a depth of 15 meters in a freshwater lake. The density of freshwater is 1000 kg/m³ and the gravitational field strength is 9.8 N/kg.
Δp = ρgh
Δp = (1000 kg/m³)(9.8 N/kg)(15 m)
Δp = 147000 Pa
Therefore, the pressure is 147000 Pascals. This calculation uses the formula relating pressure difference to the density of the fluid, gravitational field strength and depth.
Explain why the pressure increases as you go deeper into a liquid.
As depth increases, the weight of the liquid above the point in question also increases. This increased weight exerts a greater force per unit area, resulting in a higher pressure. The formula Δp = ρgh shows that pressure change (Δp) is directly proportional to depth (h), density (ρ), and gravitational field strength (g). Therefore, increased depth directly causes increased pressure.
Tips to avoid common mistakes in Pressure
- ● Pay attention to the mark allocation: one mark usually requires one point, two marks require two, and so on.
- ● More energy for gas particles means both higher momentum AND fewer collisions with the container walls per second.
- ● Explain gas pressure changes at the particle level: 'Increased temp → faster particles → harder, more frequent collisions → higher pressure.'
- ● Higher volume means lower pressure (particles spread out), lower volume means higher pressure (particles squeezed together).
- ● Always convert mass to weight (W = mg) before calculating pressure exerted by a liquid; pressure is weight per unit area.
More topics in Unit 1 — Motion, forces and energy
Pressure sits alongside these Physics decks in the same syllabus unit. Each uses the same spaced-repetition system, so progress in one informs the next.
14 flashcards
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8 flashcards
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Cambridge syllabus keywords to use in your answers
These are the official Cambridge 0625 terms tagged to this section. Mark schemes credit responses that use the exact term — weave them into your answers verbatim rather than paraphrasing.
Related Physics guides
Long-read articles that go beyond the deck — cover the whole subject's common mistakes, high-yield content and revision pacing.
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