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alukav5142 [94]

2 years ago

8

A ray of light is incident on a flat surface of a block of polystyrene, with an index of refraction of 1.49, that is submerged i

n water. The ray is split at the surface, where the angle of refraction of the transmitted ray is 18.6°. What is the angle of reflection (in degrees) of the reflected ray?

1 answer:

Kisachek [45]2 years ago

8 0

To solve this problem it is necessary to apply the Snell Law. With which the angles of refraction and incidence on two materials with a determined index of refraction are described.

The equation stipulates that

$n_1 sin\theta_1 = n_2 sin\theta_2$

Where,

$n_i$ = Index of refraction of each material

$\theta_1 =$ Angle of incidence or Angle of Reflection

$\theta_2 =$ Angle of refraction

Our values are given as,

$n_1 = 1.33 \rightarrow$ Index of refraction of water

$n_2 = 1.49$

$\theta = 18.6\°$

Replacing we have that,

$n_1 sin\theta_1 = n_2 sin\theta_2$

$(1.33) sin\theta_1 = (1.49)sin18.6$

$\theta_1 = sin^{-1} (\frac{(1.49)sin18.6}{1.33})$

$\theta_1 = 20.93\°$

Therefore the angle of reflection is 20.93°

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This is a problem about a child pushing a stack of two blocks along a horizontal floor. The masses of the blocks, and the coeffi

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Explanation:

After reading that long sentence, let's solve the question

The contact force is the so-called normal in this case we can find it by writing the translational equilibrium equation for the y axis

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2 years ago

Two loudspeakers, A and B, are driven by the same amplifier and emit sinusoidal waves in phase. The frequency of the waves emitt

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Answer:

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λ = 334 / 172 = 2 m

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If I am 1 m away from B , the path difference will be

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8 0

3 years ago

Read 2 more answers

A rectangular loop of wire with width w = 5 cm, length L = 10cm, mass m = 40 g, and resistance R = 20 mΩ has an initial velocity

zhuklara [117]

Answer:

The loop penetrate 4 cm into the magnetic field.

Explanation:

Given that,

Width w= 5 cm

Length L= 10 cm

mass m = 40 g

Resistance R = 20 mΩ

Initial velocity = 1 m/s

Magnetic field = 2 T

We need to calculate the induced emf

Using formula of emf

$\epsilon=v_{0}Bw$

Put the value into the formula

$\epsilon =1\times2\times5\times10^{-2}$

$\epsilon =10\times10^{-2}\ volt$

We need to calculate the current

Using Lenz's formula

$i=\dfrac{\epsilon}{R}$

$i=\dfrac{10\times10^{-2}}{20\times10^{-3}}$

$i=5\ A$

We need to calculate the force

Using formula of force

$F=i(\vec{w}\times\vec{B})$

$F=iwB$

Put the value into the formula

$F=5\times5\times10^{-2}\times2$

$F=0.5\ N$

We need to calculate the acceleration

Using formula of acceleration

$a=\dfrac{F}{m}$

Put the value in to the formula

$a=\dfrac{0.5}{40\times10^{-3}}$

$a=12.5\ m/s^2$

We need to calculate the distance

Using equation of motion

$v^2=u^2+2as$

$s=\dfrac{v^2-u^2}{2a}$

$s=\dfrac{0-1^2}{2\times(-12.5)}$

$s=0.04\ m$

$s=4\ cm$

Hence, The loop penetrate 4 cm into the magnetic field.

5 0

2 years ago