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3 years ago

9

A proton moves with a speed of 3.60 106 m/s horizontally, at a right angle to a magnetic field. what magnetic field strength is

required to just balance the weight of the proton and keep it moving horizontally?

1 answer:

zmey [24]3 years ago

5 0

36
Because hadagnmhh hhnhhby. J

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The main environmental effects of ozone depletion could include all of the following except

katrin2010 [14]

The main environmental effects of ozone depletion could include the following:

higher risk of skin cancer
sunburns
quick ageing
weakend immune system

<h3>What is ozone depletion?</h3>

Ozone depletion is the gradual thinning of the ozone layer in the upper atmosphere as a result of the relelase of chemical compounds or gases.

Ozone layer helps prevent the Earth surface against incoming ultraviolet radiations that could cause damage to our environment.

Therefore, the main environmental effects of ozone depletion could include the following:

higher risk of skin cancer
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Learn more about ozone depletion at: brainly.com/question/1238233

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1 year ago

You release a block from the top of a long, slippery inclined plane of length l that makes an angle θ with the horizontal. The m

Mars2501 [29]

Answer:

potential enrgy U = m g L sin θ

speed V = √(2g L sin θ)

Explanation:

The expression for the gravitational potential energy of a body is

U = mg Y - mg Yo

Where Y give us a constant initial energy from which the differences are measured, for general simplicity it is selected as zero, Yo= 0

What we find an expression for height, let's use trigonometry

sin θ= Y / L

Y = l sin θ

We substitute in the power energy equation

U = m g L sin θ

2. The mechanical energy of the system is conserved, so we will write the mechanical energy at two points the highest and the lowest

Highest Em = U

Lower Em = K

U = K

m g L sin θ = ½ m v²

V = √(2g L sin θ)

4 0

2 years ago

At an amusement park, a swimmer uses a water slide to enter the main pool. a. If the swimmer starts at rest, slides with negligi

adoni [48]

Answer:

a)6.7m/S

b)6.8m/s

Explanation:

Hello ! To solve the point b you must follow the steps below

1.Draw the slide taking into account its length and height and find the angle from which the swimmer is launched (see attached image)

2. Find the horizontal velocity (X) and vertical (Y) components (see attached image)

3) for the third step we must remember that as in the slide there is no horizontal acceleration the speed in X will remain constant at the end of the swimmer's path (Vx = 0.59m / s)

4)

the fourth step is to remember that vertically there is constant acceleration called gravity (g = 9.81m / s ^ 2), so to find the speed at the end of the route we use the following equation

$Vfy= \sqrt{Vy^2+2gy}$

where

Vfy= final verticaly speed

Vy=initial verticaly speed=0.59m/S

g=gravity=9.81m/S^2

y=height of slide=2.31m

solving

$Vfy= \sqrt{Vy^2+2gy}\\Vfy= \sqrt{(0.59)^2+2(9.81)(2.31)}=6.77m/s$

The last step is to add the velocity components vectorally at the end of the route with the following equation

$V=\sqrt{Vfy^2+Vx^2} =\sqrt{6.77^2+0.59^2} =6.8m/s$

point A

taking into account the previous steps we can infer that as the swimmer starts from rest, the velocity (Vx=Vy=O) is zero, so we should only use the formula for constant acceleration movement.

$Vfy= \sqrt{Vy^2+2gy}$

vy=0

$Vfy=\sqrt{2gy}$

Vfy= $\sqrt{2(9.81)(2.31)}$ =6.7m/s

8 0

2 years ago

Unpolarized light passes through two polarizers. Find the fraction of light from the first polarizer that gets through the secon

meriva

Answer:

0.5

Explanation:

Data provided in the question:

The angle between their transmission axes, θ = 60°

Now,

We have the relation,

I₁ = I₀cos²θ

where,

I₁ is the intensity of the transmitted light

I₀ is the intensity of the incident light

on rearranging, we get

$\frac{I_1}{I_0}$ =cos²60°

or

$\frac{I_1}{I_0}$ =0.5

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2 years ago

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UkoKoshka [18]

Answer:

a. 240.2 C

Explanation:

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2 years ago