3.3.1.3 Waves: Principle of superposition of waves and formation of stationary waves

Question 1

What is the principle of superposition?

Answer 1

When two or more waves cross, the resultant displacement equals the vector sum of individual displacement.

Question 2

What is constructive interference?

Answer 2

When two waves meet, if their displacements are in the same direction, they combine to give a bigger displacement. - they arrive at a point in phase with each other

Question 3

What is destructive interference?

Answer 3

When a wave with positive displacement and a wave with negative displacement meet they will cancel each other out. - they arrive at a point in anti-phase

Question 4

What is total destructive interference?

Answer 4

When two waves with equal and opposite displacements meet and cancel each other out completely

Question 5

What is a stationary wave?

Answer 5

The superposition of two progressive waves with the same frequency (or wavelength) and amplitude moving in opposite, directions.

Question 6

What is the feature of stationary waves?

Answer 6

No energy is transmitted

Question 7

What are resonant frequencies?

Answer 7

The frequencies at which stationary waves are formed - the oscillator produces an exact number of waves in the time it takes for a wave to get to the end and back again, then the original and reflected waves reinforce each other.
(an exact number of half wavelengths fit onto a string)
(the frequency at which a stationary wave is formed because an exact number of waves are produced in the time it takes for a wave to get to the end of the string and back again)

Question 8

What is a node on a stationary wave?

Answer 8

A point where the amplitude is zero
- total destructive interference

Question 9

What is an antinode on a stationary wave?

Answer 9

A point of maximum amplitude
- constructive interference

Question 10

What is the first harmonic?

Answer 10

The lowest possible resonant frequency, has one antinode and 2 nodes. The stationary wave produced has a half wavelength

Question 11

What is the second harmonic?

Answer 11

Twice the frequency of the first harmonic, produces a stationary wave of 2 half wavelengths

Question 12

What are the factors affecting resonant frequency?

Answer 12

String length - longer string = lower resonant frequency because half-wavelength is longer.
String mass - heavier = lower resonant frequency because waves travel more slowly down the string.
Tension - lower tension = lower resonant frequency, waves travel more slowly in a loose string.

Question 13

What is the formula for resonant frequency?

Answer 13

f = (1/2l) sqrt(T/mu)
mu (mass per unit length) = Mass of string/length of string
T (tension) = m (total mass of MASSES) * g (acceleration due to gravity)