Approximately 150 billion meters Thank you for your inquiry! 4th answer: The sun is approximately 150 billion meters (or 93 million miles) from Earth. The light will take little more than eight minutes to get from the sun to the earth. During that time, the earth will have made two orbits around the sun.
Roughly 93,000,000 kilometers The Sun is approximately 93,000,000 miles (150 million kilometers) distant from the Earth. It is so far away that light from the Sun takes around 8 minutes to reach us at a speed of 186,000 miles (300,000 kilometers) per second. This is called the Sun's radius.
The Sun is a hot body and it gets hotter the closer you get to its core. The temperature reaches about 5,500 degrees Fahrenheit (3000 degrees Celsius) near the center. Light bulbs can get close to this heat and not burn up; however, if they are too close they will melt.
The average distance between the Earth and the Sun is about 91 million miles (147 million km). But because of their relative positions in the sky, at certain times of the year we are either farther out or closer in. At its closest approach (called an equinox), the Earth is around 94 million miles from the Sun (152 million km). At its farthest approach (a solstice), it is around 92 million miles (148 million km).
During a full moon, when the Moon is completely covered by earth's shadow, we are experiencing total darkness where we live. Around half of Earth is in darkness every night.
Stars are very far away from each other, and even though they are all stars, they vary a lot in size.
The Sun's The sun is around 150 billion meters (93 million miles) away from Earth. So the solar system's most important source of energy is also its least efficient way to produce it: it takes about six days for Earth to rotate once relative to the Sun.
Stars are much more powerful than the Sun and they burn hydrogen fuel to produce energy that drives their stellar evolution. A star can die out as a red giant, supernova, or black hole. Or it can live forever as a white dwarf.
Galaxies are grouped together in clusters that contain hundreds of galaxies. They are found in almost every type of galaxy environment: open fields, small groups, large clusters. Galaxies interact with each other through collisions, passing clouds of gas, and long chains of galaxies called filaments. The gravity of these interactions causes them all to swirl around the center of each cluster like a tornado trapped by glass windows! This is why astronomers believe clusters are such useful tools for studying the nature of dark matter and dark energy.
Universes are enormous structures that include many billions of galaxies along with planets, stars, and interstellar gas. Our universe was created approximately 13.8 billion years ago in an explosion known as the Big Bang.
Light travels at 299,792 kilometers per second, or 186,287 miles per second. Light travels 499.0 seconds from the Sun to the Earth, a distance known as one astronomical unit. The Sun is about 864 million kilometers from the Earth, so light would take 9 minutes and 46.5 seconds to reach it.
The solar eclipse will be visible from somewhere on earth every single minute of its progress. But when exactly will that be? To find out, we need to understand a little more about how long a minute is. A minute is 60 seconds, but this can be divided into 300 smaller parts called degrees. Each degree represents 10 minutes by the simple way that half of 60 equals 10 and half of 100 equals 50. During a total lunar eclipse, all the moon is in darkness, so they name these events "Black Moons".
The path of the Moon as it passes through Earth's shadow causes the temperature on our planet's surface to drop. Because the path crosses both the land and the ocean, the effect will be greater over land than over water. According to scientists who study these things, the average global temperature during a total lunar eclipse is about 0°C (32°F).