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3 years ago

Which of these would NOT produce visible light? A) flint B) lightning C) microwave D) sun

Physics

2 answers:

ioda3 years ago

6 0

Answer:

A microwave

Explanation

The human retina can only detect incident light that falls in waves 400 to 720 nanometers long, so we can't see microwave or ultraviolet wavelengths. This also applies to infrared lights which has wavelengths longer than visible and shorter than microwaves, thus being invisible to the human eye.

Oksana_A [137]3 years ago

5 0

Answer:

C.) Microwave

Explanation:

USAtestprep

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Find the x-component of this vector: 15.3 m 65.0° Please help!

Harrizon [31]

Given :

Magnitude of vector, v = 15.3 m

Angle of vector from horizon, $\theta = 65^o$ .

To Find :

The x - component of the given vector.

Solution :

We know, a vector is given by :

$\vec{v} = vsin\ \theta \hat{i} + v cos \ \theta \hat{j}\\$

Now, the x - component is :

$\vec{v_x} = vcos\ \theta \hat{j}\\\\\vec{v_x} = 15.3 \times cos\ 65^o \hat{j}\\\\\vec{v_x} = 15.3 \times 0.42\ \hat{j}\\\\\vec{v_x} = 6.426\ \hat{j}$

Hence, this is the required solution.

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3 years ago

All atomic nuclei except those of ordinary hydrogen contain neutrons true or false

MatroZZZ [7]

The answer to this question is False

8 0

3 years ago

A ball is released from the top of a hill. How fast is the ball going when it reaches the base of the hill? Approximate g as 10

irina [24]

First I’ll show you this standard derivation using conservation of energy:
Pi=Kf,
mgh = 1/2 m v^2,
V = sqrt(2gh)
P is initial potential energy, K is final kinetic, m is mass of object, h is height from stopping point, v is final velocity.
In this case the height difference for the hill is 2-0.5=1.5 m. Thus the ball is moving at sqrt(2(10)(1.5))=
5.477 m/s.

5 0

3 years ago

Read 2 more answers

What changes a ball velocity

Grace [21]

Answer/Explanation: Speed and direction can change with time. When you throw a ball into the air, it leaves your hand at a certain speed. As the ball rises, it slows down. Then, as the ball falls back toward the ground, it speeds up again. When the ball hits the ground, its direction of motion changes and it bounces back up into the air.

5 0

4 years ago

A displacement is related to time as x = A sin(2?ft), where A and f are constants. Find the dimensions of A. [Hint: A trigonomet

Luba_88 [7]

Answer:

The right option is C. i.e L

Explanation:

Dimension of a quantity is the collection of the indexes of each of the fundamental quantities contained in it.

Therefore, to get the dimension of A in the equation

X=Asin(2(pi)ft)

Making A the subject of the formula

A = X / (sin(2(pi)ft)

Since sin(2(pi)ft which is a trigonometric function does not have a dimension

A = L

The dimension of A is L

5 0

3 years ago