AQA GCSE Physics P12 Waves Properties Kerboodle Answers

P12.1 The nature of waves AQA GCSE Physics Waves Properties Kerboodle Answers: Page No. 175

1 a difference between a longitudinal wave and a transverse wave is that the oscillations of a transverse wave are perpendicular to the direction in which the waves transfer energy. The oscillations of a longitudinal wave are parallel to the direction in which the waves transfer energy. b i example of a transverse wave is Light wave. ii example of a longitudinal wave is Sound wave. c When a sound wave passes through air, Air particle vibrates and oscillations are along the direction in which the wave travels. 2 a Transverse wave. b i the direction of energy transfer along the rope is energy start flowing from our hand to the other end of the rope. ii The knot move up and down without moving along the rope. In other words, the knot wouid oscillate perpendicular (at right angles) to the direction in which the waves are moving. 3 Stretch slinky out, move one end at right angles to the slinky for transverse waves and then push and pull that end parallel to the slinky for longitudinal waves. 4 motion of a small ball floating on a pond when waves travel across the pond as such the Ball moves up and down repeatedly on surface because waves consist of successive crests and troughs moving across surface, each crest pushes ball up and each trough allows it to move down.

P12.2 The properties of waves AQA GCSE Physics Waves Properties Kerboodle Answers: Page No. 177

1 the frequency of a wave defined as the number of waves passing a fixed point every second is called the frequency of the waves. 2 i The wavelength of a wave is the distance from a point on the wave to the equivalent point on the adjacent wave. II The amplitude of a wave is the maximum displacement of a point on the wave from its undisturbed position. b P moves vertically down to a minimum point then P returns back up vertically to where point P started. 3 a A speedboat on a lake sends waves travelling across a lake at a frequency of 2.0 Hz and a wavelengthof3.Om. The wave speed = wavelength x frequency, f = 2.0Hz and l = 3.0m (all units are standard) v = 3.0m x 2.0Hz v = 6.0 m/s. b i their wavelength would be wave speed = wavelength x frequency f = 1.0Hz and v = 6.0 m/s (all units are standard) 6.0m/s = λ x 1.0Hz λ = 6.0m/s ÷ 1.0Hz (if you don’t divide by Hz then m/s cannot become m) Wavelength λ = 6.0m. ii the distance travelled by a wave crest in 60s Use speed = distance/time v = 6.0m/s and t = 60s (all units are standard) 6.0m/s = s ÷ 60s s = 6.0m/s x 60s s= 360m. 4 a Use speed = distance/time and given v = 340m/s and t = 5.0s (all units are standard) 340m/s = s ¸ 5.0s s = 340m/s x 5.0s = 1700m. b their wavetength if their frequency is 3.0kHz Use: wave speed = wavelength x frequency f = 3.0kHz and v = 340 m/s (frequency units are not standard and must be converted) f = 3.0 x 1000Hz 340m/s = λ x 3000Hz λ = 340m/s/3000Hz (if you don’t divide by Hz then m/s cannot become m) λ=0.1133m λ = 0.11m.

P12.3 Reflection and refraction AQA GCSE Physics P12 Waves Properties Kerboodle Answers: Page No. 179

1 When plane waves reflect from a straight barrier, then the angle of reflected wavefront = Angle of incident wavefront. 3 a Sea waves rolling up a sandy beach are not reflected. the sides of a ripple tank are sloped because the Slopes prevent reflection at sides of tank. b if the sides of the ripple tank were vertical instead of sloped then the wave would reflect, making it hard to see incident waves.

P12.4 More about waves AQA GCSE Physics P12 Waves Properties Kerboodle Answers: Page No. 181

1 A lighting strike was heard by a student 4 seconds after he saw the lightning flash. the distance of the student to the point where the lightning strike occurred, Distance of the student to the point where the lightning strike = 330m/s × 4.0s = 1320m. 2 A student standing at a fixed distance from a large bare wall clapped her hands repeatedly in time with the echoes she heard. Her friend timed 11 claps in 24s, Distance from the student to the wall = 340*2.18/2 = 370.6m. 3 a i the wavelength of the waves on the string Length(L) = 3λ/2 so wavelength (λ) = 2*1.24/3 = 0.8267m. ii Speed of the waves on the string = frequency*wavelength =180*0.8267 = 148.806m/s. b the vibrations of the string caused sound waves in the surrounding air, Vibrations on string push surrounding air particles around the string, this produces sound waves.it sets surrounding air molecules into vibrational motion. The frequency at which these air molecules vibrate is equal to the frequency of vibration of the string. The back and forth vibrations of the surrounding air molecules creates a pressure wave which travels outward from its source. This pressure wave consists of compressions and rarefactions. The compressions are regions of high pressure, where the air molecules are compressed into a small region of space. The rarefactions are regions of low pressure, where the air molecules are spread apart. This alternating pattern of compressions and rarefactions is known as a sound wave.

P12.5 Sound waves AQA GCSE Physics P12 Waves Properties Kerboodle Answers: Page No. 183

1 A tuning fork creates a note of sound when it is struck briefly. Amplitude gradually decreases, but the frequency remains unchanged. 2 A microphone and an osciiloscope are used to investigate sound from a loudspeaker connected to a signal generator. When these signals are observed on the oscilloscope, the oscilloscope pattern will indicate the same changes in amplitude and frequency which correspond to the wave’s loudness.so decrease in amplitude or either increase in frequency or remain unchaged takes place for quieter sound. 3 A depth finder was used to send measure the depth of the sea bed. The sound pulses from the depth finder took 0.36 seconds to travel from the surface to the sea bed and back. Depth of the sea bed = speed*time/2 =1350*0.36/2 = 243m. 4 a the sound from a vibrating tuning fork is much louder if the base of the tuning fork is held on arable because Vibrating tuning fork makes table surface vibrate, vibrating surface creates sound waves in much greater volume of air than tips of vibrating tuning fork. b if sound travels through walls. Put a ringing alarm clock inside a large glass case with a valve on top. Close the valve so no air can get in.You can easily hear the clock ringing because the sound travels through the air in the case and the steel glass, before continuing to your ears.

P12.6 The uses of ultrasound AQA GCSE Physics P12 Waves Properties Kerboodle Answers: Page No. 185

1 a ultrasound waves are partly reflected by body organs because Organs have different density to surrounding tissue, so ultrasound reflected at tissue/organ boundaries. b an ultrasound scanner is better than an X-ray scanner for scanning a body organ because the Ultrasound is not ionising radiation but X-rays are ionising radiations and X-rays harmful to living tissue, ultrasound reflected at boundaries between tissues whereas X- rays are not reflected at boundaries between tissue. c the amplitude of the ultrasonic waves becomes smaller as the waves travel across the body because Some energy absorbed by body tissue as waves pass through body,so amplitude of waves therefore becomes smaller. 2 a Two internal boundaries are present b i The oscilloscope beam takes 2.0 x 10-4s to travel across the screen. The distance across the block is 90 mm. Speed of ultrasound in the block = 0.090/0.0001 = 900m/s. ii the distance from the flaw nearest to the transducer to the surface of the block where the transducer is placed. Distance = 0.5*90 = 45mm. Because distance is half the distance across the block. 3 Distance = 1350 m/s × 0.40 s = 540 m so depth is half of that = 0.5 × 540 m = 270 m.

P12.7 Seismic waves AQA GCSE Physics P12 Waves Properties Kerboodle Answers: Page No. 187

1 a types of seismic waves in order of increasing speed are long (L), secondary (S), primary (P). b I the seismic wave that is longitudinal only is P-wave. ii I the seismic wave that is transverse only is S-wave. c P-waves and S-waves bend towards the surface as they travel through the Earth because wave speed increases gradually with depth, so waves refracted and gradually change direction, bending towards surface because parts of each wavefront is farther from the surface and therefore travel faster, so wavefronts gradually move back towards surface. 2 a diagram b i S-waves cannot travel through the outer core of the Earth because they are transverse waves so cannot travel through liquid outer core. ii P-waves change their direction at the boundary between the mantle and the outer core because Speed changes at boundary, because mantle is solid and outer core is liquid and seismic waves travel faster through solids than through liquids. 3 a the average speed of the primary seismic waves from this earthquake. Speed of the primary seismic wave = 5000000/460 = 10869.56m/s. b Secondary waves arrive about three minutes later than the first primary waves. Speed of S-wave = 5000000/640 = 7812.5m/s. So S-wave is 3057m/s slower than P-wave. 4 the evidence obtained from seismic waves for the existence of a liquid outer core at the centre of the Earth. When an earthquake happens, some seismometers record only long waves. These seismometers are in the shadow zone of the earthquake , which is a zone from about 105° to 142°wherenoP-wavesor S-waves are recorded. 1 The existence of the shadow zone shows that there is a liquid (outer) core under the mantle because: • P-waves are refracted at the boundary between the mantle and the outer core when the waves enter the core and when they leave the core.Because the second refraction is further around, the waves can’t reach the shadow zone. • S-waves can’t travel through the outer core, because they are transverse waves and can’t travel through liquid.

P12.7 Seismic waves AQA GCSE Physics P12 Waves Properties Kerboodle Answers: Page No. 187

1 a types of seismic waves in order of increasing speed are long (L), secondary (S), primary (P). b I the seismic wave that is longitudinal only is P-wave. ii I the seismic wave that is transverse only is S-wave. c P-waves and S-waves bend towards the surface as they travel through the Earth because wave speed increases gradually with depth, so waves refracted and gradually change direction, bending towards surface because parts of each wavefront is farther from the surface and therefore travel faster, so wavefronts gradually move back towards surface. 2 a diagram b i S-waves cannot travel through the outer core of the Earth because they are transverse waves so cannot travel through liquid outer core. ii P-waves change their direction at the boundary between the mantle and the outer core because Speed changes at boundary, because mantle is solid and outer core is liquid and seismic waves travel faster through solids than through liquids. 3 a the average speed of the primary seismic waves from this earthquake. Speed of the primary seismic wave = 5000000/460 = 10869.56m/s. b Secondary waves arrive about three minutes later than the first primary waves. Speed of S-wave = 5000000/640 = 7812.5m/s. So S-wave is 3057m/s slower than P-wave. 4 the evidence obtained from seismic waves for the existence of a liquid outer core at the centre of the Earth. When an earthquake happens, some seismometers record only long waves. These seismometers are in the shadow zone of the earthquake , which is a zone from about 105° to 142°wherenoP-wavesor S-waves are recorded. 1 The existence of the shadow zone shows that there is a liquid (outer) core under the mantle because: • P-waves are refracted at the boundary between the mantle and the outer core when the waves enter the core and when they leave the core.Because the second refraction is further around, the waves can’t reach the shadow zone. • S-waves can’t travel through the outer core, because they are transverse waves and can’t travel through liquid.

Practice questions AQA GCSE Physics P12 Waves Properties : Kerboodle Answer Page No. 189

01.1  sound waves are longitudinal sound wave oscillations are parallel to the direction of energy transfer 01.2 compressions and rarefactions correctly labelled 01.3 0.0023 s  02.1  transverse 02.2 5cm 02.3  the waves transfer energy to the side of the pond but in a transverse wave the oscillations are perpendicular to the direction of energy transfer 02.4  0.035 m/s or 3.5 cm/s 02.5  waves reflected at the same angle wavelengths the same 03.1  1. for each material: keep the same thickness of material and loudness of bell 2. turn on bell and record the amplitude of the level of sound detected by the sound sensor 3. change the insulation material 4. repeat the test and record results in a table or bar chart 03.2 20 Hz to 20000 Hz 04  0.5 × 0.000005 × 5800 0.015 m 05 Earthquakes occur at an epicentre and result in seismic waves, called P-waves and S-waves, being transmitted through the Earth. Figures shows the structure of the Earth with seismic waves from an epicentre. 05.1  P waves will be detected at all places A,B,C, D and E P waves can travel through solid and liquids. 05.2  S waves will be detected at places A and D because S waves can travel through solid but not liquid rock. the outer core of the Earth is liquid rock 05.3 the mantle material is denser than that of the crust so the waves will travel faster through the mantle beause the particles are closer together.

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This page contains the detailed and easy notes for AQA GCSE Physics Waves for revision and understanding Waves.



AQA GCSE Paper 2: Complete Revision Summary

WAVES

  • Transverse and Longitudnal Waves
  • Properties of Waves
  • Reflection of Waves
  • Refractions of Waves
  • Sound Waves
  • Ultrasound
  • Electromagnetic Waves
  • Lenses
  • BlackBody Radiation





 

TRANSVERSE AND LONGITUDNAL WAVES

Waves are oscillations or disturbance that transfer energy from one point to another.

TRANSVERSE AND LONGITUDNAL WAVES

TRANSVERSE

LONGITUDNAL




PROPERTIES OF WAVES

Wave Speed

It is the distance travelled
by the wave each second.

Crest
It is the height of the
wave.

Amplitude

It is the maximum displacement
of the wave from the mean
position.

In the example it is 5 m

Frequency

It is the number of waves
passing each second.
It is measured in Hertz (Hz)

F = 1/T  1/4

=0.25H3

Wavelength

The distance between
two consecutive crests
or trough.

Time Period

The time it takes for one
wave to travel.

In the example, one wave
is completed in 4 second.

Trough
It is the depth of the wave.

WAVE SPEED




REFLECTION

  • It is the line perpendicular
    to the surface where reflection
    occurs.
  • It is the ray incident
    on the surface.
  • Angle of incidence is the
    angle between the incident
    ray and the normal.
  • It is the ray which is
    reflected from the surface.
  • Angle of reflection is the angle
    between the reflected ray and
    the normal.

Reflection is the phenomenon of bouncing
off the wave when it hits a medium.
eq: Reflection of light wave when it hits a plain
mirror.

LAWS OF REFLECTION

a) Incident ray, reflected ray
and normal are in the same
plane.

b) The angle of incidence
is equal to the angle
of reflection.

GCSE_Waves_Notes (1)

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IMAGE OF A PLANE MIRROR

  • It is a virtual image
  • Laterally Inverted
  • Upright
  • The same distance from the source.
REAL IMAGEVIRTUAL IMAGE
1. Image can be obtained on a screen.1. Image cannot be obtained on a screen
2. The rays actually meet where the image
is formed.
2. The rays happen to meet where
the image is formed.
eg Images of the cinema 

TYPES OF REFLECTION

REFRACTION

  • Bending of light as it travels from one medium to another.
  • Light bends because speed of light is different
    in different medium.
  • If the light is travelling from rarer to denser medium then
    it bends towards the normal. ∠r < ∠i
  • If the light is travelling from denser to rarer medium then
    it bends away from the normal.∠r > ∠i

The pencil appears to be
broken as the light is
refracted in water.

VISIBLE LIGHT

Visble light is a spectrum of 7 colours VIBGYOR

Each colour has its own freqency and wavelength.

The visible colour of the object will be the colour that is reflected by the object.

Opaque Object

Opaque objects
does not allow the
light to be transmitted
but absorb all
the light.

eg Book,

Translucent Object

These objects
allow some part
of the light to be
transmitted.

eg Plastic

Transparent Object

They allow the
light to be transmitted
through them
without any absorption

eq glass




SOUND WAVES

  • They are longitudnal Waves.
  • Sound does not travel through a medium.
  • Sound requires a medium to travel.
  • Sound wave is characterized by compression and
    rarefaction.
  • In sound waves, particles vibrate parallel
    to the direction of the wave.

The speed of the sound wave is 330m/s.

Human hearing range
20 Hz to 20,000 Hz

In Echo sounding, high frequency sound waves are sent to determine
the depth or find any object.

The time taken by the sound to come back is noted for the known speed
of sound.

S = vt/2

ULTRASOUND

It is the frequency of sound greater than 20,000 Hz.

ADVANTAGES

  • 1. They are non ionizing and
    harmless.
  • 2. They are partially reflected
    at the boundaries between
    different tissues, so they
    can scan even the soft tissues.

USES

1. Used in prenatal scanning.

2. Used to determine the depth of
the sea or the obstacle inside

3. Industrial Imaging .
4. Detecting flaws in metal castings.
water.




USES OF ULTRASOUND

ULTRASOUND SCANNER

Transducer sends ultrasound waves. It crosses
the body and reflected from the tissues. The Transducer
detects the waves reflected from the tissues and the
image is diplayed on the screen in the form of scans.

SONAR

  • Ultrasound waves are used to measure
    the depth of the sea or find the obstacle
    under water.
  • In SONAR, ultrasound is sent to determine
    the depth or find any object.
  • The time taken by the sound to come back is noted
    for the known speed
    of sound.

STRUCTURE OF THE EARTH

The crust and the upper mantle cracks and
forms the tectonic plate. The Tectonic
Plates causes Earthquake.

SEISMIC WAVES

  • Earthquake takes place
    when the rocks or the tectonic
    plates in the Earth’s Crust
    or the upper Mantle Moves
    due to forces inside the Earth.
  • Seismic Waves are the shock waves
    which originate when the forces inside
    the earth moves the rocks or
    the tecctonic plates. These waves travel
    through the Earth and also across its surface.
  • The Earthquake are detected by Seismometer.
  • The focus is the
    point from where
    the Earthquake
    originates.
  • Seismology is the study of
    Seismic Waves.
  • The nearest point on the surface of the
    focus is the epicenter.

SEISMIC WAVES

P-WaveS-Wave

·        They are longitudinal

·        They are faster than
other waves.

·        They can travel through
solids and liquids.

·        They can pass through
liquid outer core.

·        They are transverse

·        They are slower than other waves

·        They travel through
solids only

·        S-waves cannot pass
through the liquid
outercore.

  • Shadow Zones are the place
    where no P and S waves are detected.
  • S shadow zones where no S wave
    and only P waves are detected.

P and S Wave travel through the Mantle
changing directions with depth.

P waves refract at the boundary between mantle and outer core.

S waves being transfer do not travel through liquid outer core.

1. Liquid Outer core under the Mentle.

Shadow zones are detected as P waves refract twice.
Once while entering the core from the mantle
and leaving the core from the mantle. Since
the refraction is further away forming shadow
zones it suggests a liquid outer core under the mantle.

2. Solid Inner Core

Weak P waves in the shadow zones caused by the
refraction of P waves while crossing the boundary
between outer core and inner core.

Long (L-waves) travel the slowest.
They happen only in the Earth’s
crust and they cause more violent
movements.




ELECTROMAGNETIC SPECTRUM

  • It is the spectrum with all the
    electromagnetic waves arranged
    in the order of the increasing wavelength
    or frequency.
  • Electromagnetic waves are electric
    and magnetic disturbances that transfer
    energy (no matter)
    from one point to another.
  • All the electromagnetic waves travel
    with the speed of light-3 x10 8m/s
  • The frequency and the wavelength can
    be given by the formuale :- V = Fλ

ELECTROMAGNETIC SPECTRUM
MNEMONIC




GAMMA RAYS

SOURCE

Gamma rays are produced when
the radiactive substance emit
nuclear radiations.

PROPERTIES
  • They have the lowest wavelength.
  • They have highest frequency.
  • They travel with the speed of light.
USES

1. They are uses to disinfect food
and surgical equipment.

2. It is used to kill cancer cells. In
gamma treatment, the cobalt 60 is
used to direct the gamma radiation to
the cancer cells and kill it without
affecting the surrounding tissue.

DISADVANTAGES

1. Gamma Rays are highly ionizing.

2. Exposure to low dose of Gamma Rays can cause
gene mutation, DNA damage and even cancer.

3. Exposure to high dose of Gamma radiation
can caused killing of the cell.

X-RAYS

SOURCES

They are produced by stopping
high speed electrons.

PROPERTIES

1. They are electromagnetic wave which travels
with the speed of light.

2. They have wavelength greater
than Gamma Rays but smaller than
ultraviolet rays.

3. They have lower frequency than
Gamma Rays but greater than
ultraviolet rays.

4. Their wavelength is about the diameter
of the atom.

USES

1. Shorter wavelength X-rays are
used in X-ray therapy
to kill cancer cells without
destroying the healthy cells.

2. Longer wavelength X-rays are used
to photograph the internal structure
of the body.

DISADVANTAGES

1. X-Rays are highly ionizing
2. Exposure to a low dose of Gamma Rays can cause
gene mutation, DNA damage and even cancer.
3. Exposure to a high dose of Gamma radiation
can caused killing of the cell.

HOW X-RAYS WORK ?

  • X-rays are passed through the body.
  • The X-rays passes through the soft tissues but are
    absorbed by the bones and harder tissues.
  • The X-rays that pass through the softer areas reach
    the detector and appears to be black whereas the
    rays that are absorbed do not reach the detector
    and appears light in the image.
  • If any organs containing softer tissues needs to be
    photographed then patient is given a contrasting
    medium like Barium which becomes a good absorber
    of X-rays and helps the photography of that organ.
  • The detector contains the charged coupled device CCD
    which converts X-rays to light which then creates electronic
    signal which are used by the computer to make a digital
    image.

ULTRA VIOLET RAYS

SOURCE

1. They are produced from the Sun.
The Sun is the source of ultraviolet
rays.

PROPERTIES

1. They are electromagnetic wave which travels
with the speed of light.

2. They have wavelength greater
than X-Rays but smaller than
Violet light.

3. They have lower frequency than
X- Rays but greater than
violet light.

USES

They are uses as fluorescent markers
or fluorescent lamps which contains the
chemical which converts UV Light
to Visible Light.

DISADVANTAGES

1. They can cause sunburn and suntan

2. They can also lead to skin cancer.

3. They can also lead to blindness.

VISIBLE LIGHT

SOURCE

1. Sun and lamps emits light
2. It is the only part of the
specturm which is visible.

PROPERTIES

1. It is made up of 7 colours

2. VIOLET
INDIGO
BLUE
GREEN
YELLOW
ORANGE
RED
3. When the white light is passed
through the prism, it can give the
spectrum of colours.

USES
  • Light is used in a camera to take
    the picture.
  • Light is also used in Light Microscope
  • Light helps to see the object.
  • Light waves are also used in
    communication.
DISADVANTAGES

Too much exposure to visible light
can lead to cancer, blindness and
skin damage.

INFRA RED WAVES

SOURCE
  • All the hot objects like Kettle, Toaster,
    Radiator emits infrared radiation.
PROPERTIES

1. They are electromagnetic wave which
travels
with the speed of light.

2. They have wavelength greater
than visible light but smaller than
Microwaves.

3. They have a lower frequency than visible
light but greater than
microwaves.

USES

1. They are used in optical fibres
for communication.

2. They are used in remote
controls.

3. They are used as infrared
scanners to detect heat produced
by the body and unhealthy
tissues

4. Infrared cameras helps
to see objects in dark.

DISADVANTAGES

1. They can cause sunburn and suntan

2. They can also lead to skin cancer.

3. They can also lead to blindness.

MICROWAVES

 

The water in the food
absorb microwaves and
become heated and heats the
food preventing the microwave
from heating as it has no water.

SOURCE
  • They are emitted as Cosmic Microwave
    Background Radiation. Sun also emits
    some microwaves.
PROPERTIES

1. They are electromagnetic wave which
travels
with the speed of light.

2. They have wavelength greater
than infrared light but smaller than
Radiowaves.

3. They have a lower frequency than
infrared light but greater than
radiowaves.

4. They are found between Radiowaves
and Infrared Waves.

USES

1. They are used in communication.
2.They are used in satellite TV.
3. They are used in cooking.
4. They are used to carry mobile phone
signal.

DISADVANTAGES

1. Exposure to microwaves can heat
the body tissues.

2. Exposure to high dose of
microwaves can cause eye damage
and even cataract.




RADIOWAVES

SOURCE

Radio waves can be generated by natural sources
such as lightning or astronomical phenomena; or
by artificial sources such as broadcast radio
towers, cell phones, satellites and radar.

PROPERTIES

1. They are electromagnetic wave which
travels
with the speed of light.

2. They have the highest wavelength.

3. They have the lowest frequency.

USES
  • They are used in communication
    to carry TV, radio and mobile
    signals.
  • They are used in wireless connection
    and bluetooth connection.
DISADVANTAGES

1. Exposure to radiowave can heat
the body tissues.

2. Exposure to high dose of
radiowaves can cause eye damage
and even cataract.




LENSES

They are used to refract the light and forms the image of an
objects. They are used in camera.

CONVEX LENSCONCAVE LENS

1.   It is a converging lens

2. It is thicker at the center
than at the edges

3. It has a real focus

4. It converges a parallel
beam of light on refraction
through it

5. It is used in microscope,
magnifying glass

6. Used to correct short sight

1.   It is a diverging lens.

        2. It is thinner at the center
than at the edges.

3. It has a virtual focus

4. It diverges a parallel beam
of light on refraction
through it.

5. Used in some telescopes

6. Used to correct long sight.

CONCAVE LENS

mages formed is virtual, upright
and smaller than the object.

CONVEX LENS




KEY TERMS

  • Waves:- Waves are oscillations or disturbance that
    transfer energy from one point to another.
  • TRANSVERSE WAVES:- In transverse waves, the oscillations move
    perpendicular to the direction of the wave.
  • CRESTS :- It is the height of the wave.
  • AMPLITUDE :- It is the maximum displacement
    of the wave from the mean
    Position.
  • LONGITUDNAL WAVES :- In longitudnal waves, the oscillations move
    parallel to the direction of the wave.
  • FREQUENCY :- It is the number of waves
    passing each second.
    It is measured in Hertz (Hz)
  • WAVE SPEED:- It is the distance travelled
    by the wave each second.
  • TROUGH :- Trough
    It is the depth of the wave.
  • TIME PERIOD :- The time it takes for one
    wave to travel.
  • WAVELENGTH :- The distance between
    two consecutive crests
    or trough.
  • REFLECTION :- Reflection is the phenomenon of bouncing
    off the wave when it hits a medium.
    eq: Reflection of light wave when it hits a plain
    Mirror.
  • REFRACTION :- 1. Bending of light as it travels from one medium to
    another.

2. Reflection on a smooth surface.

3. Reflection on a rough surface.

  • OPAQUE :- Opaque objects
    does not allow the
    light to be transmitted
    but absorb all
    the light.
  • TRANSLUCENT :- These objects
    allow some part
    of the light to be
    transmitted.
  • TRANSPARENT :- They allow the
    light to be transmitted
    through them
    without any absorption.
  • ULTRASOUND:- It is the frequency of sound greater than 20,000
    Hz.
  • EARTHQUAKE:- Earthquake takes place
    when the rocks or the tectonic
    plates in the Earth’s Crust
    or the upper Mantle Moves
    due to forces inside the Earth.
  • SEISMOLOGY:- Seismology is the study of
    Seismic Waves.
  • SEISMIC WAVES:- Seismic Waves are the shock waves
    which originate when the forces inside
    the earth moves the rocks or
    the tecctonic plates. These waves travel
    through the Earth and also across its surface.
  • ELECTROMAGNETIC SPECTRUM:- It is the spectrum with all the
    electromagnetic waves arranged
    in the order of the increasing wavelength
    or frequency.
  • FOCUS:- Principle
    Focus or
    Focal points
    where the
    parallel rays
    meet or
    appears to meet.
  • LENS:- They are used to refract the light and forms the
    image of an
    objects. They are used in camera.
  • CONVEX LENS:- 1. It is a converging lens.
  • CONCAVE LENS:- 1. It is a diverging lens.
  • FOCAL LENGTH:- The distance between
    the focus and the
    center of the lens.




Disclaimer:

I have tried my level best to cover the maximum of your specification. But this is not the alternative to the textbook. You should cover the specification or the textbook thoroughly. This is the quick revision to help you cover the gist of everything. In case you spot any errors then do let us know and we will rectify it.

References:

BBC Bitesize

Wikipedia

Wikimedia Commons

Image Source:

Wikipedia

Wikimedia

Commons

Flickr

Pixabay

Make sure you have watched the above videos and are familiar with the key definations before trying these questions. It is also good to time yourself while doing these questions so that you can work on the speed as well.

P12-Electro Magnetic Waves