6.1 waves 3
TRANSCRIPT
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6.1WAVES
DISPLACEMENT -TIME GRAPHDISPLACEMENT DISTANCE GRAPH
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LEARNING OUTCOMES Sketch and interpret a displacement-
time graph for a wave
Sketch and interpret a displacement-
distance ra h for a wave Clarify the relationship between
speed, wavelength and frequency
Solve problems involving speed,
wavelength and frequency
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DISPLACEMENT TIME GRAPH
The motion of an oscillating spring can beplotted on a displacement time graph
O is called the equilibrium position.
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DISPLACEMENT TIME GRAPH
Amplitude, a: The maximum displacement
from its equilibrium position. SI unit: meter (m)
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DISPLACEMENT TIME GRAPH
Period, T : The time for one complete
oscillation Frequency, f:
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DISPLACEMENT DISTANCE GRAPH
a = amplitde
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DISPLACEMENT DISTANCE GRAPH
= wavelength
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Increasing Amplitude,a for displacement time graph
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Increasing Period,T for displacement time graph
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Increasing wavelength, , for displacement time graph
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Example 2
0.02 m
0.4 s1/0.4 = 2.5 Hz
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Example 2
1.2 cm6 cm
25 x 6 = 150 cm/s
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QUESTION 1
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QUESTION 2
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QUESTION 3
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QUESTION 4
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THE RELATIONSHIP BETWEENSPEED, WAVELENGTH AND
FREQUENCY
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The number of ducks passing through, Xevery second is n,
The distance between the ducks is l speed, v = n x l
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Number of ducks passing X per second , number of ducks passing X per second , n frequency of the waves, f Distance between two ducks , l
wavelength, speed ,v = n x l = f
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THE RELATIONSHIP BETWEENSPEED, WAVELENGTH AND
FREQUENCYREQUENCYv = f
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Example 3
Frequency = 50 Hz. Measure thewavelength & calculate the speed ofthe wave.
Wavelength = 2 cm = 0.02 m Speed, v = f = 50 x 0.02 = 1 m/s
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QUESTION 5
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QUESTION 5
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QUESTION 6
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QUESTION 6 - explaination