Grade 10 Science

Nature of Light

Reflection of Light

Refraction and Lenses

Mirrors and Ray diagrams

Applications of optics

100

Light travels in straight lines in a uniform medium. This is called this property.

rectilinear propagation

100

The angle of incidence equals this angle.

angle of reflection

100

Light bends toward the normal when entering this type of medium.

a more optically dense medium

100

This point is where parallel rays meet after reflection in a concave mirror.

the focal point.

100

This device uses a convex lens to magnify small objects.

a magnifying glass

200

Light that is both reflected and transmitted is called this type of surface interaction.

partial reflection

200

This type of mirror forms upright, smaller images and is commonly used in cars.

convex mirror

200

This lens converges light rays to a focal point.

a convex lens

200

Draw the path of a ray parallel to the principal axis in a concave mirror.

it reflects through the focal point

200

Correct this statement: “A virtual image can be projected onto a screen.”

virtual images cannot be projected because they do not form where light converges

300

Explain why you see lightning before you hear thunder.

because light travels faster than sound.

300

Explain why the image in a plane mirror is laterally inverted.

because light rays appear reversed when reflected.

300

Explain why a straw looks bent in a glass of water.

due to refraction of light at the boundary of air and water

300

Explain why concave mirrors can produce both real and virtual images.

because image formation depends on object position relative to focal point

300

Explain why glasses for nearsightedness use concave lenses.

because they diverge light so the image forms on the retina

400

A beam of light enters a new medium and changes direction. This process is called this.

refraction

400

If the angle of incidence increases by 10°, what happens to the angle of reflection?

it also increases by 10°

400

A convex lens forms a real image. Describe the image characteristics.

inverted and can be projected onto a screen

400

A concave mirror forms an image smaller than the object. Where is the object located?

beyond the center of curvature

400

A student sees an image that is upside down and smaller than the object. Identify the optical device.

a convex lens (camera or eye model)

500

A student claims light is a particle because it travels in straight lines. Explain why this is incomplete.

light also behaves like a wave (wave-particle duality)

500

A ray hits a mirror at 30° to the normal. A student measures 60° reflection. Explain the error.

the student measured from the surface instead of the normal.

500

An object is placed inside the focal length of a convex lens. Describe the image formed.

virtual, upright, and enlarged

500

A ray diagram is drawn incorrectly but still gives a real image. Explain why this can still happen.

because ray rules are consistent even if scaled differently

500

A ray enters water from air and bends toward the normal. Explain what happens to speed and wavelength.

speed and wavelength decrease while frequency stays constant