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How do you measure mass using a beam balance?

How do you measure mass using a beam balance?

The beam balance is a device used for the determination of the mass of a body under gravitation. Beam balance is used for high precision measurements like masses up to 250g, it consists of a pair of scale pans one at each end of a rigid beam.

What tool do you use to measure mass or weight?

balance
Balances and Scales For the majority of everyday objects, a balance is used to determine an object’s mass. The balance compares an object with a known mass to the object in question. Different types of balances include digital scientific balances and beam balances, such as a triple beam balance.

What is the instrument used for measuring mass?

Beam balance
Beam balance is commonly used to measure the mass of a body. When we hold up the balance, we observe that if there is nothing on either pan, the beam is horizontal. The body whose mass is to be measured is placed on the left pan.

Which is the best way to measure mass?

One of the best ways to measure the mass of an object is to use a triple beam balance. In balancing a scale with weights, the triple beam balance will show students how to find the mass of an object.

How does a triple beam balance measure mass?

We explain what the triple beam balance is, and how one can use it to determine the mass of an object. A triple beam balance measures the mass and not the weight of an object. Unlike the traditional spring balance which measures weight, the triple beam balance doesn’t rely on gravitational force.

How to calculate the mass of an object?

Move the rider on the back beam one notch at a time until the pointer againdrops and stays below zero. Move the rider back one notch. Slide the rider along the front beam until the pointer stops at zero. The mass ofthe object is equal to the sum of the readings on the three beams. Record the mass to the nearest tenth of a gram in Data Table 1.

What is the weight of the third beam?

The second beam which is located in the middle, has a 500 gm scale with 100 gm rider on it. The third beam, located at the back, has 100 gm scale with a 10 gm rider. When all three riders are positioned completely to the right, their combined weight equals 500 gm + 100 gm + 10 gm = 600 gm.