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2 years ago

Why does Alpha Centauri appear to be yellow-white?

Physics

2 answers:

Blizzard [7]2 years ago

4 0

Answer:

It is due to the temperature of the star.

Explanation:

The colour of star depends on the temperature of star.

Blue coloured star has high temperature rather than red coloured star.

As we know that blue coloured light ( low wavelength ) has high energy as compared to red light ( high wavelength ) has low energy.

Energy is inversely proportional to the wavelength of light.

So, the temperature of Alpha Centauri is such that it emits yellowish light.

viktelen [127]2 years ago

3 0

Actually, the real reason it appears yellow-white is because of the temperature of the star. the stars that are hotter tend to be more blue and the stars that aren’t as hot tend to be more red/orange/yellow.

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nordsb [41]

Evaporation. The glass of water was less full after 10 minuets because the water got evaporated

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2 years ago

You are working in a shoe test laboratory measuring the coefficients of friction for running shoes on a variety of surfaces. The

AnnZ [28]

Answer:

0.75

Explanation:

Since the static frictional force is the maximum force applied just before sliding, our frictional force, F is 300 N.

Since F = μN where μ = coefficient of static friction and N = normal force = 400 N (which is the downward force applied against the surface).

So, μ = F/N

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= 3/4

= 0.75

So, the coefficient of static friction μ = 0.75

6 0

2 years ago

3. Given f(x) = x2 - 5x+3, then<br>A. f(-1) = -3<br>b. f(-1) = 7<br>f(-1) = -1<br>d. f(-1) = 9

Phantasy [73]

Answer:

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2 years ago

At a depth of about 10 meters the water pressure on you is equal to the pressure of 1 atmosphere. the total pressure on you is t

MrRa [10]

It would be 22 depths inside the glass of water.

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3 years ago

A mass m neutron has elastic collision with a mass m'

hoa [83]

Answer:

The neutron loses all of its kinetic energy to nucleus.

Explanation:

Given:

Mass of neutron is 'm' and mass of nucleus is 'm'.

The type of collision is elastic collision.

In elastic collision, there is no loss in kinetic energy of the system. So, total kinetic energy is conserved. Also, the total momentum of the system is conserved.

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Now, final kinetic energy of the system will be equal to the initial kinetic energy.

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Thus, all the kinetic energy of the neutron will be transferred to the nucleus and the neutron will come to rest after collision.

Therefore, the neutron loses all of its kinetic energy to nucleus.

5 0

2 years ago