3 Ways to Calculate the Mass of an Object
Calculating the mass of an object is a fundamental part of physics and chemistry, and it’s used to understand various properties of substances and analyze their behavior under different conditions. In real-life situations, people utilize mass calculation for weighing objects, shipping goods, manufacturing, and more. In this article, we will discuss three ways to calculate the mass of an object: using a balance, the Archimedes’ principle, and gravitational methods.
1. Using a Balance
A balance is perhaps the most common way to measure the mass of an object. A traditional balance consists of a beam with two equally balanced pans suspended at equal distances from the pivot point. Objects with known mass are placed on one pan while the unknown object is placed on the other pan. When the beam stabilizes in a horizontal position, it means that both pans have equal mass. The mass of the unknown object can then be determined by adding up the masses of objects on the other pan.
Nowadays, digital balances are widely used for calculating mass due to their ease of use and high accuracy levels. A digital balance typically includes a weighing chamber that measures mass by converting force into electrical signals.
2. Archimedes’ Principle
The Archimedes’ principle states that any object submerged in a fluid experiences an upward force equal to the weight of fluid displaced by the object. This principle can be used to find the mass of an irregularly shaped or solid object without using a balance.
Initially, let’s record the weight (in air) of this irregularly shaped object. Next, take a container filled with water and note its initial volume or water level. Then, submerge the object into the water without touching the container’s sides or bottom. Now measure either volume or water level change in the container once our object is completely submerged.
Finally, apply Archimedes’ principle: We subtract volume or water level without the object from the one with the object. The resulting weight of displaced water is equal to the buoyant force; dividing such force by gravitational acceleration will give us the mass of our submerged object. By knowing the mass of the object in air and underwater, we can find its precise mass.
3. Gravitational Methods
Gravitational methods involve calculating an object’s mass using Earth’s gravity. An example of this method is applying Newton’s second law of motion, which states that Force = Mass × Acceleration. If we know the gravitational force acting on an object and the acceleration due to gravity, we can determine its mass.
One way to measure gravitational force is by using a spring scale. When an object is suspended from a spring scale, its weight stretches the spring with a measurable degree of extension. Because weight is the product of mass and gravitational acceleration (9.8 m/s²), dividing measured weight by 9.8 will yield the mass of an object.
In conclusion, there are several methods to calculate an object’s mass, but the most suitable method depends on size, shape, and properties of the object being measured. Utilizing a balance, Archimedes’ principle, or gravitational methods ensures accurate mass measurements for objects in various scenarios—helping us better understand and manage our interaction with these objects in everyday life.