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PHYS102 General Physics IITopics covered: WavesThermodynamicsElectricityMagnetismCurrently this corresponds to chapters 16 to 30 ofFundamentals of Physics by Halliday, Resnick and Walker.2Syllabus and teaching strategyGolibjon BerdiyorovRoom 148, Building 6Phone: 860-3869/2283e-mail: golib@kfupm.edu.saLecturer:Office Hours:Sunday-Thursday: 11.00-12.00 Sunday: 9.00 9.50 (6/125) 07-09Tuesday: 9.00 9.50 (6/125) 07-09Thursday: 9.00 9.50 (6/125) 07-09Lectures:Recitation:Wednesday: 7.00 7.50 (6/106) 07 9.00 9.50 (6/103) 08 10.00 10.50 (6/106) 09Grading Policy

Chapter 16Waves

Waves and particles

Types of Waves

Transverse and longitudinal wavesMotion of particles and wave

Transverse and longitudinal wavesMotion of particles and wave

Neither transverse or longitudinal wavesTransverse and longitudinal wavesMotion of particles and wave

Wavelength and frequencySinusoidal wave

Wavelength and frequencySinusoidal wave

Wavelength and frequencySinusoidal wave

Wavelength and frequencySinusoidal wave

Wavelength and frequencySinusoidal wave

Wavelength and frequencySinusoidal wave

Wavelength and frequencyTwo ways to put the wave on paper

Wavelength and frequencyTwo ways to put the wave on paper

Wavelength and frequencyWavelength and period

Wavelength and frequencyMathematical representation of a wave

Wavelength and frequencyMathematical representation of a wave

Wavelength and frequencyMathematical representation of a wave

Wavelength and frequencyMathematical representation of a wave

Wavelength and frequencyMathematical representation of a wave

Wavelength and frequencyMathematical representation of a wave

Wavelength and frequencyMathematical representation of a wave

Wavelength and frequencyMathematical representation of a wave

Wavelength and frequencyMathematical representation of a wave

Wavelength and frequencyChanging the position by one wavelength

Wavelength and frequencyChanging time by one period

Wavelength and frequencyAngular wave number and angular frequency

Wavelength and frequencyAngular wave number

distancedisplacementWavelength and frequencyAngular frequency

timedisplacementPhase constant

Wavelength and frequencyCheckpoint

Wavelength and frequencyCheckpoint

Wavelength and frequencyCheckpoint

Wavelength and frequencyCheckpoint

16.2.1. According to the text, waves are of three main types. Which of the following choices correctly lists these three main types?

a) mechanical, sound, and light waves

b) mechanical, electromagnetic, and matter waves

c) transverse, sound, and matter waves

d) longitudinal, electromagnetic, and sound waves

e) simple harmonic, light, and matter waves 16.2.1. According to the text, waves are of three main types. Which of the following choices correctly lists these three main types?

a) mechanical, sound, and light waves

b) mechanical, electromagnetic, and matter waves

c) transverse, sound, and matter waves

d) longitudinal, electromagnetic, and sound waves

e) simple harmonic, light, and matter waves 16.2.2. What type of waves are composed of electrons, protons, and other fundamental particles?

a) electromagnetic

b) longitudinal

c) nuclear resonant

d) matter

e) nanotrophic16.2.2. What type of waves are composed of electrons, protons, and other fundamental particles?

a) electromagnetic

b) longitudinal

c) nuclear resonant

d) matter

e) nanotrophic16.3.1. Which one of the following types of waves is purely longitudinal?

a) light traveling through vacuum

b) waves on a plucked guitar string

c) radio waves traveling through air

d) sound waves emitted from a speaker

e) surface waves on the surface of a shallow pond16.3.1. Which one of the following types of waves is purely longitudinal?

a) light traveling through vacuum

b) waves on a plucked guitar string

c) radio waves traveling through air

d) sound waves emitted from a speaker

e) surface waves on the surface of a shallow pond16.3.2. Which one of the following statements concerning transverse waves is true?

a) The direction of the disturbance is parallel to the direction of travel.

b) The direction of the disturbance is perpendicular to the direction of travel.

c) A sound wave is an example of a transverse wave.

d) Transverse waves are not periodic waves.

e) Transverse waves always travel at the speed of light.16.3.2. Which one of the following statements concerning transverse waves is true?

a) The direction of the disturbance is parallel to the direction of travel.

b) The direction of the disturbance is perpendicular to the direction of travel.

c) A sound wave is an example of a transverse wave.

d) Transverse waves are not periodic waves.

e) Transverse waves always travel at the speed of light.16.3.3. A sound wave is an example of what type of wave?

a) longitudinal wave

b) electromagnetic wave

c) matter wave

d) transverse wave

e) seismic wave16.3.3. A sound wave is an example of what type of wave?

a) longitudinal wave

b) electromagnetic wave

c) matter wave

d) transverse wave

e) seismic wave16.4.1. Which one of the following expressions determines the angular wave number?

a)

b)

c)

d)

e)

16.4.1. Which one of the following expressions determines the angular wave number?

a)

b)

c)

d)

e)

16.4.2. The graph shows the vertical displacement as a function of time at one location in a medium through which a wave is traveling. What is the amplitude of the wave?

a) 1 m

b) 2 m

c) 4 m

d) 6 m

e) 8 m

16.4.2. The graph shows the vertical displacement as a function of time at one location in a medium through which a wave is traveling. What is the amplitude of the wave?

a) 1 m

b) 2 m

c) 4 m

d) 6 m

e) 8 m

16.4.3. The graph shows the vertical displacement as a function of time at one location in a medium through which a wave is traveling. What is the period of the wave?

a) 0.5 s

b) 1.0 s

c) 1.5 s

d) 2.0 s

e) 4.0 s

16.4.3. The graph shows the vertical displacement as a function of time at one location in a medium through which a wave is traveling. What is the period of the wave?

a) 0.5 s

b) 1.0 s

c) 1.5 s

d) 2.0 s

e) 4.0 s