Refraction Inquiry-based Lecture. Inquiry 1 Put the pencil in an empty beaker and see it on the side of the beaker. What do you see? Now fill the beaker.

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Presentation transcript:

Refraction Inquiry-based Lecture

Inquiry 1 Put the pencil in an empty beaker and see it on the side of the beaker. What do you see? Now fill the beaker with water until you cover half of the beaker. See the pencil on the side of the beaker. What do you see?

Refraction Bending of waves when it passes from one medium to another Waves bend because their speeds change when they move from one medium to another

Water waves change speed when they move from deep to shallow part

Transverse waves on a rope slow down as they move from thinner rope to thicker rope

Refraction Objects look bent because light is refracted as it moves from air to water

Remember Sound moves fastest in solids, then liquids, then gases and no sound at all in vacuum But light moves fastest in vacuum, then gases, then liquids, then solids

Inquiry 2 Let’s do the glass bar, pins and paper experiment. Normal line Incident angle Refracted angle

Remember If light slows down from one medium to another, the light ray is bent closer to the normal. –The angle of incidence is greater than the angle of refraction –Example: air to glass, air to water

Remember If light speeds up from one medium to another, the light ray is bent away from the normal. –The angle of incidence is smaller than the angle of refraction –Example: glass to air, water to air

What and how you see things around you are different from what the fish sees.

A fisheye’s view of the world

Remember If light enters in a parallel-sided block, then it leaves the block at the same angle as it enters the block but bent sideways.

Inquiry 3 Put a coin in an empty beaker. Move in such a way that you don’t see the coin in the beaker anymore. Ask your friend to slowly pour water in the beaker. What happens?

Refraction Causes things to look shallower than they actually are Apparent depth Put a ruler in the beaker of water and read from the top. Does it look longer or shorter? What happens to the distance between divisions on the ruler? –Are they closer or farther?

Refraction Measure the depth of the water from the top. Measure it again by putting the ruler on the side of the beaker. Are they the same or not?

Going Beyond What are everyday examples of refraction? What is a prism and why does it form rainbows? How is a rainbow formed?

Prism A transparent optical element with flat polished surfaces that refract light. Can be used to break light up to its spectral colors –Colors of the rainbow Can also be used to reflect light

Prism Materials refract different wavelengths of light at different angles Dispersion ROY G BIV

Rainbow

In transparent materials, some light are reflected

Total Internal Reflection (TIR) When a ray does not cross the boundary but is reflected instead

Critical Angle Angle at which total internal reflection occurs

Fibre Optics

Endoscope