Summary
Transverse and longitudinal waves are two main types of waves that differ in the direction of particle movement relative to wave propagation. The wave equation, v = fλ, describes the relationship between wave speed, frequency, and wavelength, applicable to both wave types.
- Transverse Waves — Waves where particles oscillate perpendicular to the direction of wave travel. Example: Light waves.
- Longitudinal Waves — Waves where particles oscillate parallel to the direction of wave travel. Example: Sound waves.
- Wave Equation — A formula that relates wave speed (v), frequency (f), and wavelength (λ). Example: v = fλ, where v is speed, f is frequency, and λ is wavelength.
Exam Tips
Key Definitions to Remember
- Transverse Waves: Particles oscillate perpendicular to wave direction.
- Longitudinal Waves: Particles oscillate parallel to wave direction.
- Wave Equation: v = fλ, linking speed, frequency, and wavelength.
Common Confusions
- Confusing the direction of particle movement in transverse and longitudinal waves.
- Misunderstanding the relationship between frequency and wavelength.
Typical Exam Questions
- What is the difference between transverse and longitudinal waves? Transverse waves oscillate perpendicular, longitudinal waves oscillate parallel.
- How do you calculate wave speed using the wave equation? Use v = fλ, where v is speed, f is frequency, and λ is wavelength.
- What happens to frequency if wavelength increases? Frequency decreases as wavelength increases.
What Examiners Usually Test
- Understanding of wave properties and differences between wave types.
- Ability to apply the wave equation to solve problems.
- Interpretation of wave graphs and practical experiment results.