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3 years ago

What is the height in meters of a person who is 6 ft 1.0 in. Tall?

Physics

2 answers:

Agata [3.3K]3 years ago

8 0

Answer=1.85 m
or 1.9m

PolarNik [594]3 years ago

7 0

Answer: 1.9m.

Explanation:...

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True or False? Sound travels faster through metal than air

nadezda [96]

Answer:

Yes.

Explanation:

Sound waves travel through metal 17 times faster than air.

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3 years ago

Read 2 more answers

A scientific theory is_____.

natta225 [31]

Answer:

B. A well-tested explanation for a widely accepted hypothesis

Explanation:

This is true about a scientific theory going by the fact of it being a well tested explanation. For example, in one of the Newtons law of motion which he stated to be<em> "To every action, there is equal and opposite reaction", </em><em>the hypothesis has been known till he was able to offer a well tested explanations with calculations showing that, it was actually true.</em>

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3 years ago

A 1000kg roller coaster begins at 10m tall hill with initial velocity of 6m/s and travels down until a second hill. 1700J is tra

nadezda [96]

Answer:

The maximum height could be 10.6 meters.

Explanation:

For this kind of exercise, we use the general principle for conservation of mechanical energy (E) that states:

$E_1+W_f=E_2$ (1)

That means the mechanical energy an object has on a point 2 should be equal to the mechanical energy on a point 1 plus the energy transformed into heat due friction denoted as Wf (It is negative because is lost). In our case point 1 is the point where the roller coaster begins and point 2 is at the second hill. Tola mechanical energy is the sum of potential gravitational energy and kinetic energy, so (1) is :

$K_{1}+U_{1}+W_{f}=K_{2}+U_{2}$

with K the kinetic energy and U the potential energy, remember potential energy is mgh and kinetic energy is $\frac{mv^2}{2}$ with m the mass, v the velocity and h the height, then:

$\frac{mv_1^2}{2}+mgh_1+W_{f}=\frac{mv_2^2}{2}+mgh_2$

Solving for h_2:

$h_2=\frac{\frac{mv_1^2}{2}+mgh_1+W_{f}-\frac{mv_2^2}{2}}{mg}=\frac{\frac{(1000)(6)^2}{2}+(1000)(9.8)(10)-1700-\frac{(1000)(4.6)^2}{2}}{(1000)(9.81)}$

$h_2=10.6 m$

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3 years ago

As the soviet russian soldiers approached the camp what were the prisoners forced to do

konstantin123 [22]

The prisoners were forced to hide under their beds or take cover as the Russians would have to fight their way into the camps. Hope this helps :)

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4 years ago

Consider light energy that is momentarily absorbed in glass and then re-emitted. Compared to the absorbed light, the frequency o

fredd [130]

The frequency of the re-emitted light is identical to that of the absorbed light.

To find the answer, we need to know more about the frequency of light.

<h3> Why the re-emitted light has the same frequency?</h3>

The wavelength of the light that is momentarily absorbed in glass and then re-emitted is the same, which explains why the re-emitted light has the same frequency as the absorbed light and the frequency of the absorbed light is the same.
An electromagnetic wave's energy is inversely related to its frequency.
The relationship between the wave's wavelength and frequency depends on the speed of light:

$frequency=\frac{c}{wave length}$ , c is the speed of light.

Despite not having mass, light still has energy, and that energy is conserved.
As a result, in order for there to be energy conservation, the energy of the light that is received and reemitted must be equal.

Thus, we can conclude that, the re-emitted light's frequency matches the absorbed light's frequency.

Learn more about frequency here:

brainly.com/question/26754018

#SPJ4

4 0

1 year ago