Pretty average in all three regards.
Yes! Some stars are supergiants, which means that they are high-mass stars. They explode in a supernova towards the end of their life. These stars are generally brighter than others. A star's brightness also depends on its temperature. Red stars are the coolest temperature, followed by orange, yellow, white and blue stars.
It was not the biggest but made a huge dent in Japan's history.
It isn't. The sun is a star and there are others that are similar in size and temperature.
A star's apparent brightness depends on:* Its actual brightness - please note that there are huge differences here. * Its distance. If one star is 10 times as close as another one, it will appear to be 100 times as bright. * Any dust or gas that may absorb part of the star's light.
Iron is a metal, and metals are solid at room temperature.
Yes! Some stars are supergiants, which means that they are high-mass stars. They explode in a supernova towards the end of their life. These stars are generally brighter than others. A star's brightness also depends on its temperature. Red stars are the coolest temperature, followed by orange, yellow, white and blue stars.
The reference point.
They want to compare themselves to others
Your settings on your iPod Touch are set to a lower brightness than other iPod Touches. Go to Settings, and then General, and sift through there (usually under 'display') and you should find brightness, and you can adjust the brightness of your iPod touch from there.
There compare the same There compare the same
A scale measures the mass of an object. Answer 2 It also can be a level of temperature, ocean depth, earthquake severity, brightness, sound level, and a thousand others. The purpose of a scale is to be able to say how much the level of whatever it is you're talking about compares with another.
A stars brightness depends on two factors; its distance from us and its actual brightness (absolute magnitude). The actual brightness of a star depends on various factors, such as its mass, its temperature and its age.Consider two stars of the same actual brightness (absolute magnitude) - if one of them is much closer, then is will be brighter than the further one. It will appear brighter, even though it would be the same side by side - it can be said to be apparently brighter (higher apparent magnitude) due to its distance.A:They appear bigger and brighter because they really are bigger and brighter, but even if they are not bigger and brighter it could be because they are closer.
A stars brightness depends on two factors; its distance from us and its actual brightness (absolute magnitude). The actual brightness of a star depends on various factors, such as its mass, its temperature and its age.Consider two stars of the same actual brightness (absolute magnitude) - if one of them is much closer, then is will be brighter than the further one. It will appear brighter, even though it would be the same side by side - it can be said to be apparently brighter (higher apparent magnitude) due to its distance.A:They appear bigger and brighter because they really are bigger and brighter, but even if they are not bigger and brighter it could be because they are closer.
left ventricle
I would call it a quadrilateral. I cannot compare my answer with the 3 others and so am unable to comment.
You can read the Kindle Paperwhite in the dark; I'm not sure about the others.
Compare yourself to others stand by them show them your taller