The formula is:
weight = mass x gravity.
On Earth, "gravity" is about 9.8 meters/second2, equivalent to 9.8 newton/kilogram. That means that each kilogram has a weight of 9.8 newton. On other planets, the "gravity" part will be different. For example, on Mars, the gravity is about 3.7 newton/kilogram. Thus, a man with a mass of 100 kilogram (that's well above the average, but simplifies calculations...) would weigh about 980 newton on Earth, and about 370 newton on Mars.
To calculate weight on other planets, you can use the formula: Weight Mass x Gravity. The mass of an object remains the same, but the gravity on different planets varies. You can find the gravity of a planet by looking it up online or using a formula. Then, multiply the mass of the object by the gravity of the planet to find the weight on that planet.
Earth's magnetic field does not affect light or sound. It primarily interacts with charged particles such as electrons and protons in Earth's atmosphere and in space.
When gravity changes, objects will experience a different force pulling them towards the source of gravity. This can affect the weight of objects, their motion, and how they interact with other objects. Changes in gravity can also impact the orbits of planets, satellites, and other celestial bodies.
The weight of the 3.6 kg mass would be zero if it were far away from any other masses since weight is the force of gravity acting on an object due to the presence of another mass. In the absence of other masses, there would be no gravitational force acting on the object.
The measure of the pull of gravity on an object is its weight, which is determined by the mass of the object and the acceleration due to gravity. The acceleration due to gravity varies on different planets, so the weight of an object will change if it is on a planet other than Earth.
Other planets
There is a cool calculator you can use to see any weight as it would be on other planets and moons. click on this link:Your Weight on Other Worlds
it affects the other planets and its rotation
it affects the other planets and its rotation
To calculate weight on other planets, you can use the formula: Weight Mass x Gravity. The mass of an object remains the same, but the gravity on different planets varies. You can find the gravity of a planet by looking it up online or using a formula. Then, multiply the mass of the object by the gravity of the planet to find the weight on that planet.
No. Weight is affected by gravity.
The planets' own gravity has made them spherical. Also there are other effects such as their ability to retain an atmosphere, etc. The Sun's gravitycauses the orbits of the planets.
To find your weight on other planets, you would multiply your weight on Earth by the planet's surface gravity relative to Earth's surface gravity. For example, your weight on Mars would be your weight on Earth multiplied by 0.38, as Mars' surface gravity is 0.38 times that of Earth.
They affect each other, and all the other planets, due to their gravitational attraction. In particular, Jupiter affects the "Trojan" and "Greek" asteroids, Saturn affects the "centaurs", and Neptune has a large effect on the trans-Neptunian objects.
Jupiter. Its weight is roughly 2.5 times the size of all the other planets in our solar system combined.
the sun holds 98% of the solar system.
Earth's magnetic field does not only affect other planets. It plays a crucial role in protecting Earth from harmful solar radiation, creating the auroras, and guiding migratory animals. Additionally, it has practical applications in navigation and technology on Earth.