xavier catholic college physics the world communicates
XAVIER CATHOLIC COLLEGE
PHYSICS
THE WORLD COMMUNICATES
Worksheet 3: Students : 1.5a solve problems and analyse information by applying the mathematical model of v=fλ to a range of situations Remember: T =
1 f
or
f =
1 T
Question 1 Sound travels through air at about 330 ms-1. Calculate the wavelength of a sound of frequency 256 € Hz.
Question 2 The “C” above middle C on the piano has a frequency of 512 Hz. Calculate its wavelength.
W3-1.5a-v=fxlambda.doc
Page 1 of 5
Question 3 The speed of light is 3 x 108 ms-1. Violet light has a wavelength of about 400 nm (nm = x 10-9). Calculate the frequency of this light.
Question 4 The table below shows information about the various colours of visible light. Calculate the missing data. Colour
Frequency (Hz)
Wavelength (nm)
red
750
orange
600
yellow
580
green
540
blue
6 x 1014
indigo
6.67 x 1014
W3-1.5a-v=fxlambda.doc
Page 2 of 5
Question 5 A single dipper creates waves in a ripple tank. The waves are seen to have a distance of 5.0 cm between the crests. Twelve crests are observed to hit the side of the tank in 4.0 s. Calculate the following for the waves: a) the wavelength
b) the frequency
c) the period
d) the speed
W3-1.5a-v=fxlambda.doc
Page 3 of 5
Question 6 Each wave below has been drawn life size. Each represents 1.0 s of time. For each find its wavelength, amplitude, frequency, period and velocity.
(Shadwick; 2004: 6)
A.
B.
W3-1.5a-v=fxlambda.doc
Page 4 of 5
C.
D.
E.
END OF WORKSHEET ACKNOWLEDGEMENTS Boyle, D. Allan, P. & Millar, G. (1993) A Question Of Physics. Port Melbourne, Rigby Heinemann Shadwick, B. (2004) Surfing Physics The World Communicates . Marrickville, Science Press
W3-1.5a-v=fxlambda.doc
Page 5 of 5
PHYSICS
THE WORLD COMMUNICATES
Worksheet 3: Students : 1.5a solve problems and analyse information by applying the mathematical model of v=fλ to a range of situations Remember: T =
1 f
or
f =
1 T
Question 1 Sound travels through air at about 330 ms-1. Calculate the wavelength of a sound of frequency 256 € Hz.
Question 2 The “C” above middle C on the piano has a frequency of 512 Hz. Calculate its wavelength.
W3-1.5a-v=fxlambda.doc
Page 1 of 5
Question 3 The speed of light is 3 x 108 ms-1. Violet light has a wavelength of about 400 nm (nm = x 10-9). Calculate the frequency of this light.
Question 4 The table below shows information about the various colours of visible light. Calculate the missing data. Colour
Frequency (Hz)
Wavelength (nm)
red
750
orange
600
yellow
580
green
540
blue
6 x 1014
indigo
6.67 x 1014
W3-1.5a-v=fxlambda.doc
Page 2 of 5
Question 5 A single dipper creates waves in a ripple tank. The waves are seen to have a distance of 5.0 cm between the crests. Twelve crests are observed to hit the side of the tank in 4.0 s. Calculate the following for the waves: a) the wavelength
b) the frequency
c) the period
d) the speed
W3-1.5a-v=fxlambda.doc
Page 3 of 5
Question 6 Each wave below has been drawn life size. Each represents 1.0 s of time. For each find its wavelength, amplitude, frequency, period and velocity.
(Shadwick; 2004: 6)
A.
B.
W3-1.5a-v=fxlambda.doc
Page 4 of 5
C.
D.
E.
END OF WORKSHEET ACKNOWLEDGEMENTS Boyle, D. Allan, P. & Millar, G. (1993) A Question Of Physics. Port Melbourne, Rigby Heinemann Shadwick, B. (2004) Surfing Physics The World Communicates . Marrickville, Science Press
W3-1.5a-v=fxlambda.doc
Page 5 of 5
