The Earth orbits the Sun at an average distance of about 150 million kilometers. This distance varies slightly throughout the year due to the elliptical shape of Earth's orbit.
The orbit of Mercury varies from 28,583,820 miles (46,001,200 km, 0.307499 AU) to 42,760,839 miles (68,816,900km, 0.466697 AU). That would be 4.9x 1012 cm to 6.8x1012 cm --- mean distance 5.8x1012 cm.
The distance between 4 meters and 79 centimeters is 4.79 meters.
The distance around the Earth's equator is about 40,075 kilometers, which is equivalent to 4,007,500,000 centimeters.
To find the actual distance between two points on Earth using a graphic scale, measure the distance between the two points on the map using the scale provided. Convert this measurement to actual distance by using the ratio scale (e.g., 1 cm = 100 km) provided on the map. Multiply the measured distance by the ratio to find the actual distance between the two points on Earth.
The standard unit of measurement for the distance from the sun to the earth is one Astronomical Unit (AU). An AU, as defined by the International Astronomical Union, is about 149,597,871 km (92,955,807 miles). It is the mean distance between the sun and the earth.
The Earth orbits the Sun at an average distance of about 150 million kilometers. This distance varies slightly throughout the year due to the elliptical shape of Earth's orbit.
The orbit of Mercury varies from 28,583,820 miles (46,001,200 km, 0.307499 AU) to 42,760,839 miles (68,816,900km, 0.466697 AU). That would be 4.9x 1012 cm to 6.8x1012 cm --- mean distance 5.8x1012 cm.
20 cm.
The distance between 4 meters and 79 centimeters is 4.79 meters.
Suppose we assume the distance is 150 000 000 kilometres (sometimes a couple of million more, sometimes less) That is 15e7 km There are 100 000 cm in a km. That is 1e5 cm Therefore the distance is roughly 15 000 000 000 000 cm or 15e(7+5) or 15e12 cm
The distance around the Earth's equator is about 40,075 kilometers, which is equivalent to 4,007,500,000 centimeters.
area of parallelogram=b*h 24*12=288 x=288/18 16 cm distance between shorter sides is 16 cm
To find the actual distance between two points on Earth using a graphic scale, measure the distance between the two points on the map using the scale provided. Convert this measurement to actual distance by using the ratio scale (e.g., 1 cm = 100 km) provided on the map. Multiply the measured distance by the ratio to find the actual distance between the two points on Earth.
The distance is always changing as both planets move around the Sun. The average is about 1.4 billion kilometers, or more than 8 times as far as Earth is from the Sun (8 AU). At its closest, when both planets are on the same side of the Sun, Saturn is about 8 AU (1.2 billion km or 744 million miles) from us. At its farthest, when we're on opposite sides of the Sun, Saturn is about 11 AU (1.6 billion km or 1 billion miles) from us.
The density of the Sun is about 1.4 times that of the Earth. This is because the Sun has a much larger mass compared to its volume, making it much denser than our planet.
The distance between the center of a magnet and one of its poles is half the distance between the two poles when the magnet is symmetrically oriented. So in this case, the distance from the center of the magnet to one of its poles would be half of 58.8 cm, which is 29.4 cm.