Optics B/C

[Avogadro]

Answer (Click to Show Hidden Text)

If 700 nm is red and 450 nm is blue, then green?

Correct! Your turn/

[UTF-8 U+6211 U+662F]

A laser is pointed at mirror A with an angle of incidence of 50 degrees. Mirror A is connected to Mirror B at a 30 degree angle. What is the angle of reflection off of mirror B?

(The mirrors look something like this:

Mirror A
<
Mirror B

)

[Avogadro]

A laser is pointed at mirror A with an angle of incidence of 50 degrees. Mirror A is connected to Mirror B at a 30 degree angle. What is the angle of reflection off of mirror B?

(The mirrors look something like this:

Mirror A
<
Mirror B

)

Attempt (Click to Show Hidden Text)

20°?

[UTF-8 U+6211 U+662F]

That's what I got, yep!

[Avogadro]

Cool.

A beam of light enters a prism with an index of refraction of 1.35. If each of the angles of the prism is 60°, what maximum angle must the angle of incidence be so that no light comes out the other side?

[UTF-8 U+6211 U+662F]

Cool.

A beam of light enters a prism with an index of refraction of 1.35. If each of the angles of the prism is 60°, what maximum angle must the angle of incidence be so that no light comes out the other side?

Answer? (Click to Show Hidden Text)

Assuming a surrounding index of refraction of 1, arcsin(1/1.35) = 47.8 deg, which requires an angle of refraction of 77.8 deg, so 1*sin(theta) = 1.35*sin(77.8 deg), theta = arcsin(1.35*sin(77.8 deg)), and theta = undefined. Therefore, light always comes out the other side?

[Avogadro]

Cool.

A beam of light enters a prism with an index of refraction of 1.35. If each of the angles of the prism is 60°, what maximum angle must the angle of incidence be so that no light comes out the other side?

Answer? (Click to Show Hidden Text)

Assuming a surrounding index of refraction of 1, arcsin(1/1.35) = 47.8 deg, which requires an angle of refraction of 77.8 deg, so 1*sin(theta) = 1.35*sin(77.8 deg), theta = arcsin(1.35*sin(77.8 deg)), and theta = undefined. Therefore, light always comes out the other side?

Yeah, looks like I accidentally made a trick question lol. Good practice anyway!

[Tom_MS]

Cool.

A beam of light enters a prism with an index of refraction of 1.35. If each of the angles of the prism is 60°, what maximum angle must the angle of incidence be so that no light comes out the other side?

Answer? (Click to Show Hidden Text)

Assuming a surrounding index of refraction of 1, arcsin(1/1.35) = 47.8 deg, which requires an angle of refraction of 77.8 deg, so 1*sin(theta) = 1.35*sin(77.8 deg), theta = arcsin(1.35*sin(77.8 deg)), and theta = undefined. Therefore, light always comes out the other side?

Yeah, looks like I accidentally made a trick question lol. Good practice anyway!

I'm not getting that result. (Click to Show Hidden Text)

It looks like you just used snell's law and the critical angle and didn't use the 60 degree apex angle. Using geometry (which is kind of complicated to explain here), I'm getting the formula of theta=arcsin( n*sin( 60 - arcsin(1/n))). This gives be 16.58 degrees. If this angle was decreased (I think) any more, no light would escape.

[UTF-8 U+6211 U+662F]

Answer? (Click to Show Hidden Text)

Assuming a surrounding index of refraction of 1, arcsin(1/1.35) = 47.8 deg, which requires an angle of refraction of 77.8 deg, so 1*sin(theta) = 1.35*sin(77.8 deg), theta = arcsin(1.35*sin(77.8 deg)), and theta = undefined. Therefore, light always comes out the other side?

Yeah, looks like I accidentally made a trick question lol. Good practice anyway!

I'm not getting that result. (Click to Show Hidden Text)

It looks like you just used snell's law and the critical angle and didn't use the 60 degree apex angle. Using geometry (which is kind of complicated to explain here), I'm getting the formula of theta=arcsin( n*sin( 60 - arcsin(1/n))). This gives be 16.58 degrees. If this angle was decreased (I think) any more, no light would escape.

The 60 degree apex angle was used to determine (Click to Show Hidden Text)

the angle of 77.8 deg

Anyways new question:
A Science Olympiad Optics supervisor holds up two white flashlights. The first has a magenta filter, and the second has a cyan filter. What color is the overlap of the two flashlights?

[jonboyage]

Yeah, looks like I accidentally made a trick question lol. Good practice anyway!

I'm not getting that result. (Click to Show Hidden Text)

It looks like you just used snell's law and the critical angle and didn't use the 60 degree apex angle. Using geometry (which is kind of complicated to explain here), I'm getting the formula of theta=arcsin( n*sin( 60 - arcsin(1/n))). This gives be 16.58 degrees. If this angle was decreased (I think) any more, no light would escape.

The 60 degree apex angle was used to determine (Click to Show Hidden Text)

the angle of 77.8 deg

Anyways new question:
A Science Olympiad Optics supervisor holds up two white flashlights. The first has a magenta filter, and the second has a cyan filter. What color is the overlap of the two flashlights?

I have to agree with Tom here (Click to Show Hidden Text)

I'm getting the same exact answer of 16.5836 degrees and I made sure it was right by doing it the long way and going through each step that leads to the condensed formula Tom described

Answer (Click to Show Hidden Text)

I'm not 100% sure about this but is it light blue?