The terms “**mass**” and “**weight**” are employed interchangeably in ordinary conversation, but the two terms don’t mean the same thing. The huge difference between mass and weight is that mass is the total amount of matter in a product while fat is a measure of exactly how the force of gravity acts upon that mass.

Mass is the measure of the quantity of matter in a human body. Mass is denoted m that is using M.

Weight could be the measure of the amount of force acting on a mass due to the acceleration due to gravity. Body Weight usually is denoted by W. Body Weight is mass multiplied by the acceleration of gravity.

**W = m * g**

Comparing Mass Versus Weight Here’s a dining table the compares the differences between weight and mass. For the most part, if you’re on Earth rather than moving, the values for mass and weight will be the same. If you change respect to gravity to your location, mass will stay unchanged, but weight will not. For instance, your mass is a group value, however your fat is different in the Moon in contrast to on the planet.

**Measurement of mass vs. weight **

Weight is measured using a scale which effectively steps the pull on the mass exerted by the gravity of the earth. Mass of the body is calculated by balancing it similarly with another known amount of mass. Mass may be calculated using a pan balance while body Weight may be measured using a spring balance. Methods could be interchanged if gravity is known and constant, as it is on planet.

**Effect of gravity of weight and mass**

The weight of an object will depend on the gravity at that destination while Mass is always a constant from anywhere and anytime. Egg. If an item’s mass is 60 kegs, then its Weight could be 600 Newton’s but when taken to your Moon, this object has a weight of 100 Newton as the gravity of the moon is 1/6th compared to our planet. Nevertheless the mass of the item will remain the same.

Mass could be a constant while Weight varies.

**External Factors Affecting Weight**

Mass can be an intrinsic measure of an object and therefore is independent of any external factors. Weight, having said that, depends on the mass that is attracting it and the potent force with which it has been attracted.

Mass is a home of matter. The mass of an object is the everywhere that is same | Weight depends upon the consequence of gravity. Weight varies based on location. |

Mass doesn’t change based on location. | Weight increases or decreases with higher or lower gravity. |

Mass is a quantity that is scalar. It has magnitude | Weight increases or decreases with higher or lower gravity. |

Mass is a scalar quantity. It has magnitude. | Weight is really a vector quantity. This has magnitude and is directed toward the center of the Earth or other gravity well. |

Mass may be measured having an balance that is ordinary. | Weight is measured using a spring balance. |

Mass usually is calculated in grams and kilograms. | PPPP Weight often is measured in newtons, a unit of force. |