Earthquakes L.O: explain how movement of these plates cause a variety of processes to occur.

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Presentation transcript:

Earthquakes L.O: explain how movement of these plates cause a variety of processes to occur

You need to know how plate tectonics cause volcanoes, earthquakes and mountains to form UpYQ UpYQ

Describe how the following geological processes are caused by the movement of tectonic plates: 1.Volcanoes (plate boundary, movement apart, magma erupting, lava flow) 2.Earthquakes (plate boundary, sliding, focus, epicentre, seismic waves,) 3.Mountain building (subduction – oceanic plate, continental plate, new mamga formed, new mountain formed) - You can include diagrams

Earthquakes Caused by plates sliding past each other Produces wave motion on surface and inside of Earth Movement of energy through a substance (no transfer of matter) Use a seismograph to collect data on earthquakes P-waves detected first – primary wave (faster) S-waves detected secondly – secondary wave (slower)

P-waves Longitudinal Areas of compression of matter Travel through solids and liquids Travel faster and are detected first

LONGITUDINAL WAVES Make a longitudinal wave using a spring between two people like this : What type of energy is the wave transferring? In which direction is the energy moving? In which direction is each part of the spring moving? kinetic

In longitudinal waves the vibrations are along the same direction as the wave is travelling particle movement energy movement When you speak to someone, the air vibrates as a longitudinal wave : LONGITUDINAL WAVES

S-waves Transverse Waves travel at right angles Travels through solids only Travel slower and are detected second

Crest / Peak = the distance from one peak of a wave to the next is called the wavelength of the wave, normally measured in metres Time Trough a a  Displacement + Waves : Introduction TRANSVERSE WAVES

Test yourself – answer the following grade C questions!! 1.Which type of wave will reach a destination first; a p- wave or s-wave? 2.Which wave type is (a) longitudinal (b) transverse? 3.What causes an earthquake? 4.What moves through the Earth’s solid matter? 5.What type of wave travels through (a) solids (b) solids and liquids? 6.Which wave type has areas of compression? 7.Which wave type travels at 90 o angles to the direction of movement?

Answers 1.P-wave arrives first 2.(a) p-wave is longitudinal (b) s-wave is transverse 3.Plates sliding past each other causes an earthquake 4.Energy moves through the Earth’s solid matter 5.(a) s-waves travel through solids (b) p-waves travel through solids and liquids 6.A longitudinal p-wave has areas of compression 7.A transverse s-wave travels at right angles to the direction of movement

Seismic waves Waves within a layer change direction gradually because there is a gradual change in density, causing a gradual change in direction (refraction). At a layer boundary there is a big change in direction because there is a big change in density between layers, therefore a big refraction and change in speed. S wave shadow only p waves received here

What can the movement of s and p-waves tell us about the structure of the Earth? Size of core, mantle, crust Core is liquid as no s-waves can travel through it Mantle is solid as s-waves do travel through it Refraction of p-waves indicates a liquid outer core and solid inner core

A* 6 mark question

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Waves : Frequency The number of waves passing a point each second is called FREQUENCY [ƒ] Frequency [ƒ] is measured in hertz [Hz] Frequency [ƒ] = Number of waves passed  Time [s] 1 wave per second = 1 Hz If the wave below passes a point in 1 second, what is it’s frequency?

Earthquakes L.O: use equations to calculate the speed of a wave and the distance it travels

Complete the table Waves : Frequency WaveCyclesTime (s)Freq (Hz) 2 2 2

Wave equation Frequency = number of waves that pass a point each second Wave speed = speed at which the wave moves Can calculate the speed a wave is moving by: Speed = frequency x wavelength Can calculate the distance a wave moves with the following equation: Distance = speed x time At a constant wave speed, the wavelength of a wave is inversely proportional to the frequency

Equations you need!! Speed = frequency x wavelength Distance = speed x time

Wave Speed – complete the table

A radio wave has a frequency of 92.2 x 10 6 Hz. Find its wavelength (the speed of all electromagnetic waves is 3 x 10 8 m/s Re-arrange 3 x 10 8 / 92.2 x 10 6 = ? 3.25 m

Sound travels at 340 m/s and takes 0.2 s to travel the length of the sports hall and back. How long was the sports hall? 34 m

Eva is building a sandcastle. She estimates that 1 wave passes her sandcastle every 2 seconds, and that the crests of the waves are 90 cm apart. Calculate the speed, in metres per second, of the waves passing Eva’s sandcastle O.5 Hz x 0.9 m = 0.45 m/s