Motion & Time
Motion and Time
What you'll learn
- Speed: definition, formula, units.
- Uniform vs non-uniform motion.
- Distance-time graphs — how to read and draw them.
- Simple pendulum — what determines its time period.
- Units of time and measuring time accurately.
Key concepts
Distance, speed and time
- Distance: total path length covered.
- Speed: distance covered per unit time.
Speed = Distance / Time v = d / t
- Unit: m/s (SI), also km/h.
- Conversion: 1 km/h = 1000/3600 m/s = 5/18 m/s; 1 m/s = 18/5 km/h = 3.6 km/h.
| Quantity | Symbol | Unit |
|---|---|---|
| Distance | d | m (metres) |
| Speed | v | m/s |
| Time | t | s (seconds) |
Examples:
- A car covers 120 km in 2 hours. Speed = 120/2 = 60 km/h = 50/3 m/s ≈ 16.7 m/s.
- A cyclist travels at 5 m/s for 10 s. Distance = 5 × 10 = 50 m.
Types of motion
| Type | Description | Speed | Example |
|---|---|---|---|
| Uniform motion | Equal distance in equal time intervals | Constant speed | Train on straight track; light |
| Non-uniform motion | Unequal distances in equal time intervals | Changing speed | Car in traffic; falling object |
- Uniform motion: no acceleration; distance-time graph is a straight line.
- Non-uniform motion: accelerating or decelerating; distance-time graph is a curve.
Distance-time graphs
Interpreting distance-time graphs:
| Graph shape | What it means |
|---|---|
| Horizontal line (flat) | Object is stationary (at rest) |
| Straight line sloping upward | Uniform motion (constant speed); steeper slope = faster speed |
| Curved line sloping upward | Non-uniform motion — speed is changing |
| Downward sloping line | Object returning (moving toward starting point) |
Reading speed from a distance-time graph:
- Speed = gradient (slope) of the line = rise/run = Δd/Δt.
- Steeper slope → higher speed.
Plotting a distance-time graph:
- Time on X-axis; Distance on Y-axis.
- Plot (time, distance) data points.
- Join points smoothly.
- Read slope for speed.
Units of time
| Unit | Value |
|---|---|
| Second (s) | SI unit of time |
| Minute (min) | 60 s |
| Hour (h) | 3600 s |
| Day | 86,400 s |
- Periodic motion: motion that repeats after fixed intervals (oscillation of a pendulum, Earth's rotation).
- Time measuring devices: sundial (ancient), water clock (clepsydra), hourglass, mechanical clock, quartz clock, atomic clock (most accurate — used in GPS; accurate to 1 second in 300 million years).
Simple pendulum
- A simple pendulum consists of a small heavy mass (bob) attached to a long, light string, fixed at one end; free to swing.
- One oscillation (one complete swing): from one extreme to the other and back again.
- Time period (T): time for one complete oscillation.
What affects the time period?
| Factor | Effect on T | Explanation |
|---|---|---|
| Length of string (L) | Longer string → longer T | More distance to travel |
| Acceleration due to gravity (g) | Higher g → shorter T | Stronger pull speeds up swing |
| Amplitude (swing angle) | No effect (for small angles < 15°) | Galileo discovered this — isochronous property |
| Mass of bob | No effect | Heavier bob doesn't swing faster or slower |
T = 2π√(L/g) (for small angles)
- A pendulum with L = 1 m on Earth (g = 9.8 m/s²): T ≈ 2 s.
- Seconds pendulum: T = 2 s; L = ~1 m.
Applications of pendulums:
- Grandfather/pendulum clocks — pendulum keeps time.
- Seismographs — measure earthquakes.
- Foucault's pendulum — demonstrates Earth's rotation.
Galileo and the pendulum:
- Galileo Galilei (1564–1642) observed a swinging chandelier in Pisa Cathedral.
- Used his own pulse to time swings — discovered time period depends only on length, not amplitude or mass.
Measuring time accurately
- Stopwatch: measures time to 0.1 s (mechanical) or 0.01 s (digital).
- Best practice: measure 10 or 20 oscillations and divide by number for accurate T.
- Human reaction time (~0.2 s) introduces error in single measurements.
Quick check
- A train covers 300 km in 5 hours. What is its speed in km/h and m/s?
- What does a horizontal line on a distance-time graph indicate?
- What is a simple pendulum? What is its time period?
- Will a pendulum with twice the length have twice the time period? Explain.
- How would you find the speed of an object from a distance-time graph?
Open the Practice tab for graded questions on Motion and Time.
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