People often get confused when it comes to Physics concepts like mass and weight. Mostly, students use these terms interchangeably, which is wrong. Mass and weight are not the same. Read this complete guide to have thorough knowledge of these terms, the major difference between mass and weight, some myths and the best platform that makes Physics and other subjects easy for you.
Learn physics the easy way with step-by-step explanations and real examples.
In simple words, Mass is the quantity of matter in an object. It is a scalar quantity, which means that it has magnitude only and has no direction like vector quantities.
Units: The SI unit of Mass is kilograms (kg)
On the other hand, Weight is the measure of the gravity acting on the object. Unlike mass, weight is a vector quantity as it has both magnitude and direction.
Units: The SI Unit of weight is Newton (N).
1 N = kilogram meter per second squared (kg⋅m/s²).
We can find out the mass of an object by using several equations. Which equation to use depends on the given information you have in each scenario.
Use the following formula when you have density and volume in the given data.
Mass = Density × Volume
Formula:
m=ρ×V
By using Newton’s second law
Mass = Force ÷ Acceleration
Formula:
m = F/a
Mass from weight can be found using the following formula.
Mass = Weight ÷ Gravitational acceleration
Formula:
m = W/g
Useful when you have momentum and velocity in the given data.
Mass = Momentum ÷ Velocity
Formula:
m = p/v
The mass can be found out by Kinetic Energy by using the kinetic energy formula.
Mass = (2 × Kinetic Energy) ÷ Velocity²
Formula:
m= 2KE / v²
Like Mass, there are many equations through which we can find the weight of an object depending on the information provided.
Weight = Mass × Gravitational acceleration
W=m×g
Weight = Force due to gravity
W=F=m×a
Since gravity causes the acceleration,
W=m×g
Weight = Density × Volume × g
W=ρ×V×g
ρ = density
V = volume
Weight = Mass × Gravitational field strength
W=m×G
Weight = Gravitational force between Earth and object
W = GMm/r²
Mass | Weight |
Amount of matter in an object | Force of gravity acting on an object |
Constant everywhere | Changes with location |
Independent of gravity | Depends on gravity |
Scalar quantity | Vector quantity |
SI unit is the kilogram (kg) | SI unit is newton (N) |
Measured using a beam balance | Measured using a spring balance |
Same on Earth, Moon, and space | Different on Earth, Moon, and space |
Never zero for a physical object | Can be zero in deep space |
Used to measure inertia | Measures gravitational pull |
Fundamental property of matter | Derived physical quantity |
Symbol: m | Symbol: W |
Related to density and volume | Related to mass and gravity |
Does not cause motion by itself | Can cause objects to fall |
Measured in everyday life for quantity | Felt as “heaviness” |
Used in chemistry and atomic science | Used in mechanics and forces |
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Weight can be measured by using a Force meter, also called a spring scale. Here’s how it works: A spring scale has a hook, and the object needs to hang on this hook to check the object’s weight. On the other hand, mass can be measured by using an electronic balance. You just need to reset towards zero and then place the object over to check the mass of an object.
The following is the difference between the mass and weight of a body on the Moon vs Sun:
Mass is the amount of matter in a body; therefore, whether you are on Earth or the moon, if an object’s mass is 50 kg, it will remain the same regardless of your location. However, the weight is the force of gravity on the object, so the weight of the same object will vary on two planets. Why? because gravity changes. Standard values of gravity for the Moon and Earth are given below:
Moon: g≈1.62 m/s²
Earth: g≈9.80665 m/s²
Suppose you have the mass of an object that is 50 kg.
On the Moon
Using W = m x g
W = 50 x 1.62
W = 81N
On the Earth
W = 50 x 9.80665
W = 490N
Let’s solve some questions to have a better understanding of how to find mass and weight in physics.
Solution:
W=m×g
W=10×9.8=98N
Answer: Weight = 98 N
Solution:
m = W/g
m = 196/9.8
m = 20kg
Answer: Mass = 20 kg
Solution:
W=30×1.62=48.6N
Answer: Weight on Moon = 48.6 N
Solution:
Given g = 24.8 m/s²
m = 2 kg
W=m×g
W= 2 x 24.8
W = 49.6 N
Get 1-on-1 guidance from expert physics tutors and learn how to solve numericals step by step.
1.Which of the following quantities remains the same on Earth, Moon, and Sun?
A.Weight
B. Force
C. Mass
D. Acceleration
Correct Answer: C. Mass
2.The SI unit of weight is:
kilogram (kg)
B. gram (g)
C. Newton (N)
D. meter (m)
Correct Answer: C. newton (N)
3.The SI unit of mass is:
A.newton
B. kilogram
C. meter
D. second
Correct Answer: B. kilogram
4.An object has a mass of 10 kg. What is its weight on Earth?
9.8 N
B. 19.6 N
C. 98 N
D. 980 N
Correct Answer: C. 98 N
5.If the mass of a body is doubled, its weight will:
A.remain the same
B. become half
C. become double
D. become zero
Correct Answer: C. become double
The following are some common myths about mass and weight.
Fact: Mass and weight are different physical quantities.
Explanation: Mass is the amount of matter in an object; however, weight is the force of gravity acting on that object. It means mass will remain the same anywhere, but weight will vary because of a change in gravity. If a boy is standing on the roof of his house, and if he stands at the top of the mountain, the mass will remain the same in both places, but the weight will vary as these two places have different gravitational forces.
Fact: A change of weight does not mean a change of mass.
Explanation: The weight of a body depends on the force of gravity acting on it. If a person goes from Earth to the Moon, their weight decreases because gravity is smaller, but their mass will remain the same.
Fact: Objects with more mass weigh more only if gravity is the same.
Explanation: Weight is calculated using the formula:
Weight=Mass×Gravity
An object with more mass will have more weight only if the gravitational field is constant. If gravity changes, a lighter object in strong gravity may weigh more than a heavier object in weak gravity.
Fact: Weight doesn’t exist without gravity.
Explanation: Weight is a force caused by gravity. In space, the gravitational effects are extremely low, which is why astronauts in space feel weightless, but they still have mass. Thats why weight depends on the force of gravity acting on an object, while mass does not depend on anything.
Fact: All objects fall at the same rate in the absence of air resistance, regardless of their mass.
Explanation: When an object falls freely under gravity, its acceleration depends only on the gravitational field, not on its mass. In a vacuum, where air resistance is absent, a heavy object and a light object reach the ground at the same time. The famous Moon experiment showed a hammer and a feather falling together. On Earth, lighter objects fall more slowly only because of air resistance, not because they have less mass.
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Mass and weight may seem similar in everyday language, but in physics, they represent two very different concepts. Mass is the amount of matter in an object and remains constant everywhere, while weight is the force of gravity acting on that mass and changes with location.
Understanding these small differences helps students avoid common misconceptions, solve numerical problems correctly, and apply physics concepts confidently to real-world situations. By mastering the definitions, formulas, examples, myths, and FAQs covered in this guide, learners can build a strong foundation in science and clearly differentiate between mass and weight in both theory and practice.
Kg is the unit of mass, so whenever you see kg, it’s always the mass of the body, which is the total quantity of matter in the object; however, the SI unit of weight is Newton, and that is the force of gravity on an object.
A student has a mass of 40 kg. This mass remains 40 kg on Earth, on the Moon, or anywhere in space because mass depends on the amount of matter in the body.
The amount of matter of a body is its mass, not weight.
Whenever kilograms (kg) are used, they refer to mass, not weight. Mass is the quantity of matter present in a body or object and remains constant regardless of location. Therefore, when someone says their “weight is 60 kg,” they are actually stating their mass, not their weight.
In drug slang, “kilo” means one kilogram (1,000 grams) of a drug, usually cocaine.
No, mass and weight are not the same. The mass is the quantity of matter in an object, and weight is the force of gravity acting on the object.
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