To find refractive index of that glass: n1 (sin i) = n2 (sin r) Where: - n1 is the refractive index of the incident medium (which in this vid is air = 1) - i is the angle of incident - n2 is the refractive index of the refracting medium (which in this vid is glass) - r is the angle of refraction Ps. This just remind me how to calculate the refractive index.
thank you very much man will def be using this for my physics deconstruct
What's written on your hand?
Thank u sir❤❤
Thanks Colin 🙏
you should use 30, 45, 60 respectively for your angle indcidence
Is the calculation: Reflective Index = sin(i)/sin(r), correct?
Im a bit late but yea it is
Yess
how do you do it for a circular shape
Great video! Off topic, but are you Scottish? (:
Leslie Rodriguez, his accent is northern english, i think yorkshire.
Elmo Raine hes from Zimbabwe
i i have a test on Refraction Reflection and what is ment by the normal line plz can u help me
how did it go?
@@marleyshaw-mchenry2389 after 3 years and you're only asking now?🤣🤣
@@b1ackkni9ht18 Gotta see how they're doing after that Physics test lol
The perpendicular line which is essential for you to draw in every math regarding this topic
Nice
Than use the formula sin(i) ÷sin(r) ..U will get your refractive index
ahhh thank you so much!!1
To find refractive index of that glass:
n1 (sin i) = n2 (sin r)
Where:
- n1 is the refractive index of the incident medium (which in this vid is air = 1)
- i is the angle of incident
- n2 is the refractive index of the refracting medium (which in this vid is glass)
- r is the angle of refraction
Ps. This just remind me how to calculate the refractive index.
it is actually sin i/sin r= constant refractive index
lies
thx mate
For Wednesday:
Lenses - mix.office.com/watch/yqiollprrekk
Converging Lenses - mix.office.com/watch/1fzsjbqjtxdcj
Diverging Lenses - mix.office.com/watch/qcvcbyzm7bv9
anyone know what the light is called?
Ray box
69 subs lol
This shit fire
Why do we take an experiment
Niz
how do you do it for a circular shape