What happens to a reflection of light that has struck a surface?A) It bounces off.
B) It becomes absorbed.
C) It gets transmitted.
D) It gains energy.

Answers

Answer 1

Answer:

Answer:

A) It bounces off.

Explanation:

Bouncing back of light into the same medium is known as reflection of light

As per law of reflection we know that light incident on the surface at a given angle with respect to the normal then the angle of reflected light with the normal will be same

angle of incidence of light = angle of reflection of light

Also we know that incident light, reflected light and normal always lie in the same plane

So we can say that here correct answer will be

A) It bounces off.

Answer 2

Answer:

Answer:

The answer is A) It bounces off

Explanation:

Refraction bends and Reflection bounces off. (I just took the test).

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In the light wave above, the property labeled A determines which characteristic of visible light?brightness
speed
reflection
color

Answers

Explanation:

i think the answer is Reflection

Can u help me on this question plz

Answers

Ah hah ! The two questions on this page are checking to see
if you understand what "net force" means.

Remember that "net force" means the result of adding up the
strength and direction of a group of separate forces.

Also remember that if the net force is not zero, then the object
accelerates in the direction of the net force.

-- Forces 'B' and 'D' both act horizontally on the airplane.
Force-'D' tries to pull it forward, and force-'B' tries to pull it
backward. The airplane is moving forward faster and faster.
This tells us that the net horizontal force on it must point forward.
So force-D must be stronger than force-B.

-- Forces 'A' and 'C' both act vertically on the airplane.
Force-A tries to pull it up, and force-C tries to pull it down.
At the moment of take-off, the airplane lifts off from the ground
and rises up and up. This tells us that the net vertical force on it
must point up. So force-A must be stronger than force-C.

I can't really see the answer, try underlining it or go over it in pen

Explain the Impulse-Momentum Theorem.

Answers

The impulse-theorem states that the change in momentum of an object is equal to the impulse exerted on it

Explanation:

The impulse-theorem states that the change in momentum of an object is equal to the impulse exerted on it.

Mathematically, we have:

- The impulse is defined as the product between the force exerted (F) and the duration of the collision ( $\Delta t$ ):

$I=F \Delta t$

- The change in momentum is equal to the product between the mass of the object (m) and the change in velocity ( $\Delta v$ ):

$\Delta p = m \Delta v$

So, the theorem can be written as

$F\Delta t = m \Delta v$

This theorem can be proved by using Newton's second law. In fact, we know that

$F=ma$ (1)

where a is the acceleration of the object. However, we can re-write the acceleration as the rate of change of velocity:

$a=(\Delta v)/(\Delta t)$

Therefore, (1) becomes:

$F=m(\Delta v)/(\Delta t)$

And by re-arranging,

$F\Delta t = m \Delta v$

Which is exactly the formula of the impulse theorem.

Learn more about impulse and momentum:

brainly.com/question/9484203

#LearnwithBrainly

How did scientists boost the spacecraft Juno on its way to Jupiter, helping it overcome the gravitational pull of the Sun?

Answers

For the answer to the question above asking how did scientists boost the spacecraft Juno on its way to Jupiter, helping it overcome the gravitational pull of the Sun?
Scientists boost the spacecraft Juno on its way to Jupiter, helping it overcome the gravitational pull of the Sun by using a gravitational slingshot.

Answer: B.) by using a gravitational slingshot

The acceleration of an object depends on the ____________ exerted on it and it's_________ this is to do with newton's seconed law