1.98 x 1030 kg
Any number that is very large, or very small (near zero). For example, the mass of the Sun in kilograms (large), the distance to the M31 galaxy in meters (large), or the mass of the electron in kilograms (small).
Mass of ten 12 kilograms = 10*12 = 120 kilograms
Kilograms.
Yes
That depends on where you weigh 142 pounds.-- If you weigh 142 pounds on Earth, then your mass is 64.4 kilograms. (rounded)-- If you weigh 142 pounds on the Moon, then your mass is 389.2 kilograms. (rounded)-- If you weigh 142 pounds on Mars, then your mass is 169 kilograms. (rounded)-- If you weigh 142 pounds on Jupiter, then your mass is 24.4 kilograms. (rounded)...etc.
Sun mass = 1.989 * 1030 kilograms. > Approximately 333,000 times the mass of earth.
Planets don't "weigh"; they have a mass. Mass is that which is expressed in kilograms (or pounds, or tonnes).The seventh planet from the Sun is Uranus; its mass is 8.68e25 kilograms, or about 14.5 times the mass of Earth.
1828 millionThe mass of our Sun is 1.989 x 1030 kilograms
You cannot weigh 45 kilograms because a kilogram is a measure of mass, not of weight. If your mass is 45 kilograms, your weight on the surface of the sun would be 12330 newtons.
The mass of the Sun is about 2 x 10 to the power 30 kilograms.
The mass of the Sun is 219,261,000,000,000,000,000,000,000 short tons, if weighed on Earth - which of course is impossible.
The Wikipedia lists the mass as (1.98855±0.00025)E30 kilograms. The plus-minus, of course, refers to the probable error in the Sun's mass, as currently known. That means this mass is currently known with a probable error of about 0.01%.It is also necessary to realize that the mass of the sun is slowly but continuously decreasing. due mostly to the conversion of mass to energy in fusion (4.29E9 kilograms/second) but also the solar wind (~1E9 kilograms/second). Admittedly this mass loss is so small compared to the probable error in the total mass that it is usually ignored, but still it makes knowledge of "exact mass of the Sun" impossible.
Gravitational force is a property of mass. Wherever there's mass, there will be force between it and any other mass. The more mass there is, the greater the forces will be between it and any other mass. The sun has quite a bit of mass ... something like 1,989,000,000,000,000,000,000,000,000,000 kilograms of it, compared to about 84 kilograms in me ... so you can expect quite a bit of force between the sun and any other mass within a few billion miles of it.
The mass of the Sun is usually specified in kilograms, which is the international unit for mass. Simply multiply that by 1000, to get the mass in grams. (Since the mass is usually given in scientific notation, just add 3 to the exponent.)
The mass of the Sun is usually specified in kilograms, which is the international unit for mass. Simply multiply that by 1000, to get the mass in grams. (Since the mass is usually given in scientific notation, just add 3 to the exponent.)
9 kilograms
The relevant quantity in this case is the mass. The mass of our galaxy's black hole is estimated to be about 4 million times the mass of the Sun. (If you want that in kilograms, look up the mass of the Sun, and multiply that by 4 million.)