Topic 5 - Waves Pt2 Flashcards
What’s an interface?
A boundary between 2 different media
Explain what happens to waves at interfaces?
- When a wave passes from 1 medium to another, some of its energy is reflected & some is transmitted
- the proportion of energy reflected or transmitted depends on the 2 media involved
- if they have very different densities most of the energy is reflected
- if they have quite similar densities most of the energy is transmitted
What’s refraction?
- It’s when a wave changes direction as it enters a different medium
- This is a result of the wave slowing down or speeding up (you can tell which of the two it is if the wave bends towards or away from the normal)
- the speed changes because the wavelengths the wave is changing & the frequency stays constant ( v = f Y)
What does it mean if the light Ray bends towards the normal?
- it’s slowing down ( wavelength decreased frequency stays the same)
- the Ray is going from a less optically dense material to a more optically dense material
What does it mean if the light Ray bends away the normal?
- the wave is speeding up ( wavelength increases frequency stays the same)
- it’s going from an optically denser material to a less optically dense material
What’s the refractive index?
- it measures how much the material slows down light
- light goes fastest in a vacuum. It slows down in other materials because it interacts with the particles in them, the more optically dense the more light slows down
What’s the refractive index of air?
1
How would you find the refractive index of a material?
n = c / v n = refractive index (ratio so no units) c = speed of light in a vacuum (c = 3 x 10*8 m/s) v = speed of light in that material
Explain snells law
n1 sin ø1 = n2 sin ø2
- ø1 = is the angle the incoming light makes to the normal, angle of incidence
- ø2 = is the angle the refracted ray makes with the normal, angle of refraction
- the light is crossing a boundary, going from a medium with refractive index n1 to a medium with refractive index n2
What happens when the angle of refraction is a right angle?
- the angle of incidence is critical
- when ø1 = critical angle ø2 = 90 degrees and light is refracted along the boundary
- it happens to light going from a dense material to a less dense material
Snells law can simplify to what?
Sin C = 1 / n
n air =1 and sin(90) =1
n is the refractive index of the material
What’s total internal reflection?
At angles of incidence greater than C, refraction is impossible, so all the light is reflected back into the material
What’s the focal length of a converging lens?
- It’s the distance between the lens axis and focal plane
- f is positive for a converging lens because it’s in front of the lens
What’s the focal length of a diverging lens?
- it’s the distance between the labs axis & the principal focus
- f is negative for a diverging lens because it’s behind the lens
Explain the properties of a converging lens?
- lens change the direction of light rays by refraction
- converging lenses bulge outwards
- rays parallel to the principal axis of the lens converge onto a point called the principal focus
Explain the properties of a diverging lens?
- diverging lenses cave inwards
- the principal focus of a diverging lens is at a point behind the lens
- the principal focus is the point that rays from a distant object, parallel to the profila la axis appear to come from
What’s the power of a lens?
What equation can you use to find the power of a lens?
-power tells you the lens ability to bend light. The higher the power, the more the lens will refract light
- p = 1/f
f= focal length (m)
P= power units: dioptres (D)
Explain what happens to the power when you have lots of thin lens’ in a line with their principal axis Lined up?
If the lenses are touching or are very close the total power of the lenses is found by just adding all the powers together
P = p1+ p2 + p3
What are the 2 ways to calculate magnification?
M = image height / object height
M= image distance / object distance (M = v/u)
Magnification has no units as it’s a ratio
What’s a real image?
- it’s when light rays from a point on an object are made to pass through another point in space
- the image can be captured on a screen
What’s a virtual image?
- it’s formed when light rays from a point on an object appear to have come from another point in space.
- the light lights rays aren’t actually where the image appears to be
- so it can’t be captured on a screen
What kind of image does a converging lens form?
- both real and virtual images, depending where the object is
- if the object is further than the focal length away from the lens, the Image is real
- if the objects closer, the image is virtual
What kind of image does a diverging lens form?
It will always form a virtual image - the position of the object in relation to the focal length will not affect the type of image formed
What’s the thin lens equation?
1/f = 1/u + 1/v f = focal length U = object distance V = image distance
