Less than. Nothing on the surface of the Earth can weigh more than the Earth itself.
greater
No, the electrn mass is around 1836 times less that the proton
a greater mass of animals than plants
Mercury's mass = 0.055 x Earths, Volume = 0.056 x Earths Mars' mass = 0.1075 x Earths, Volume = 0.151 x Earths Venus' mass = 0.815 x Earths, Volume = 0.857 x Earths (Earth) mass = 1 x Earths, Volume = 1 x Earths Uranus' mass = 14.536 x Earths, Volume = 63.086 x Earths Neptune's mass = 17.147 x Earths, Volume = 57.74 x Earths Saturn's mass = 95.152 x Earths, Volume = 763.59 x Earths Jupiter's mass = 317.8 x Earths, Volume = 1321.3 x Earths
The mass of the products in a chemical reaction is equal to the mass of the reactants, according to the law of conservation of mass. This principle states that matter cannot be created or destroyed in a closed system, so the total mass remains constant throughout the reaction. Therefore, the mass of the products is neither greater nor less than the mass of the reactants; it is the same.
greater
The moons gravity is less than that of the earth, since the earths mass is greater than the moons mass. Gravity is related to mass and distance from that mass. The greater the mass, the greater the gravitational field it has.
No, it is only a tiny fraction. The sun's mass is roughly 330,000 times greater than the Earth.
It is true that mass and gravity are proportional to one another.
No. The crust contains a small fraction of earth's mass. Most of the mass is contained in the mantle.
Your weight is directly proportional to the mass and gravity of the planet, if the planet has a greater gravity and mass, you will weigh more.
Because the overall mass of the moon is less than the earths mass. The gravity of a body relates to the mass of that body.
The Earth's inertia is caused by its mass, which is the amount of matter it contains. The greater the mass of an object, the greater its inertia. This means that the Earth tends to resist changes in its motion due to its large mass.
The greater the mass the greater the inertia. Thus if both vehicles were travelling at the same speed the vehicle with the greater mass would have the most inertia and thus be the hardest to stop.
The larger the mass of an object, the greater the force it will exert on other objects. But as the distance from that object becomes greater, the gravitational pull becomes smaller. For example, the sun has a larger mass than the earth, so gravity on the suns surface would be much greater than on earths surface. Also, as you get further and further away from the earth, the less you are influenced by its gravity.
Whenna given force is applied ,an oobject with greater mass will accelerate less
Objects with more mass have a greater gravitational force than objects with less mass. Gravity is directly proportional to mass, so the more mass an object has, the stronger its gravitational pull.