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Last Updated Sep 26, 2025
Vectors Simplified Revision Notes for Scottish Highers Physics
Revision notes with simplified explanations to understand Vectors quickly and effectively.
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Physics
Vectors
Vectors
Introduction
- Vectors are fundamental in physics and represent quantities that have both magnitude (size) and direction.
- Unlike scalar quantities that have magnitude only, vectors require both a numerical value and a specified direction to fully describe them.
Examples of Vector Quantities
Vector quantities are used to describe various physical attributes, including:
- Displacement: The change in position of an object with both magnitude and direction, usually measured in meters (m).
- Velocity: The rate of change of displacement with respect to time, typically measured in meters per second (m/s) and including direction.
- Acceleration: The rate of change of velocity, often measured in meters per second squared (m/s²) and including direction.
- Force: A vector quantity representing a push or pull on an object, measured in newtons (N) and including direction.
- Weight: The force exerted on an object due to gravity, including both magnitude and direction.
- Momentum: A vector quantity representing an object's motion, calculated as the product of its mass and velocity, including direction.
Characteristics of Vector Quantities
Vectors possess the following characteristics:
- They require both magnitude and direction for a complete description.
- Vector quantities can be added or subtracted using vector algebra, considering both magnitude and direction.
- Changing either the magnitude or direction of a vector changes the vector itself.
Vectors
Examples
Here are some examples of vector quantities:
- If you move 100 meters east, your displacement is a vector quantity because it includes both magnitude (100 m) and direction (east).
- A car travelling at a velocity of 60 km/h north is a vector quantity because it includes both the numerical value (60 km/h) and the direction (north).
- An object experiencing a force of 20 newtons to the right is described by a vector quantity, including both magnitude (20 N) and direction (right).
- When an aeroplane accelerates at 5 m/s² upwards, it represents a vector quantity with magnitude (5 m/s²) and direction (upwards).
Summary
- Vectors in physics possess both magnitude and direction, making them more complex than scalar quantities.
- Examples of vector quantities include displacement, velocity, acceleration, force, weight, and momentum.
- Vector quantities can be manipulated using vector algebra, and changes in magnitude or direction alter the vector itself.
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