During a lunar eclipse, the half of the planet
that is in night mode can see it, because during that type of an eclipse,
the earth gets in between the sun and the moon and the reason the moon
turns red is because earth's atmosphere bends some light and that light hits the moon.
<span>So roughly,
50% percent of the earth can see a lunar eclipse at one time.</span>
To add, the lunar eclipse<span> is an astronomical phenomenon and happens about
two times per year, and a large portion of the Earth can see this type of
eclipse, compared to solar eclipses.</span>
Answer and Explanation:
The main difference between monopolistic competition and perfect competitive market are given bellow
Excess capacity : There is constantly an overabundance limit in monopolistic challenge and not in the ideal challenge. Over the long haul, superbly aggressive firms produce at the proficient scale,where as monopolistically focused firms produce beneath this level. Firms are said to have abundance limit under monopolistic challenge. As it were, a monopolistically focused firm, in contrast to a splendidly aggressive firm, could build the amount it delivers and lower the normal all out expense of generation.
Markup over marginal cost: the another distinction between flawless challenge and monopolistic challenge is the connection among cost and minor expense. At an aggressive firm consistently cost equivalents negligible expense. Where as, in monopolistically aggressive firm, cost surpasses minimal expense becouse the firm consistently have some market control.
If the solstice is in northern hemisphere. then it is antarctica, and if it... wait if u look it up on google i promise u should beable to find because i had a question like that before and my teacher said to look it up
The gravitational pull must be greater than the heat pressure's outward push. A gas cloud that is falling builds up thermal energy, which creates thermal pressure that can stop the gravitational collapse.
<h3>What phenomenon prevents an interstellar gas cloud from collapsing gravitationally if it is massive enough to become a star?</h3>
Even when there is no fusion taking on in the star's core, degeneracy pressure can stop a star from contracting gravitationally.
<h3>What mechanism prevents the gravitational collapse of an interstellar gas cloud when it attains a star-like mass?</h3>
For there to be a large gravitational pull, there must be a lot of material present, and for there to be little gas pressure, there must be very low temperatures. Interstellar clouds of gas are typically.
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