Measuring Inertial Mass: Force, Acceleration and Mass

AI Thread Summary
Scientists measure inertial mass using the formula F=ma, where force (F) is applied to an object to determine its acceleration (a). The challenge arises in measuring the force accurately, as traditional methods like balances or springs rely on force, creating a potential circular reasoning issue. Mass is typically determined by comparing an object to a known standard mass, which ultimately traces back to a defined kilogram stored in Paris. Despite the complexities, the principle remains that two objects with equal mass will respond identically to equal forces. This foundational understanding of mass measurement is crucial in physics.
Swapnil
Messages
459
Reaction score
6
I was wondering, how is it that scientists measure inertial mass. I presume they use F=ma, and thus the mass of an object would be measured by applying a force on an object and finding out the resulting acceleration. Getting acceleration is simple, but how can they measure the force? Then if they can't measure the force, then how can they measure the mass?
 
Physics news on Phys.org
Normally one measures the mass of an object by comparing it with a known standard mass, either directly using a balance, or indirectly by using a device (like a spring) that is calibrated using known masses.

One finds the mass of the "known" mass by comparing it with yet another standard mass, etc. The end of the chain is a chunk of platinum-iridium alloy stored under controlled conditions in a basement in Paris, whose mass is by definition exactly one kilogram.
 
jtbell said:
Normally one measures the mass of an object by comparing it with a known standard mass, either directly using a balance, or indirectly by using a device (like a spring) that is calibrated using known masses.
But doesn't a balance or a spring use the concept of forces to give you the measured mass? And forces are actually dependent on mass... I don't know why, but doesn't all of this seem to be circular?
 
Swapnil said:
But doesn't a balance or a spring use the concept of forces to give you the measured mass?

The only requirement is that two objects with the same mass be affected equally by equal forces.
 
mass is a si measurement therefore you can think of it as the beggining...like jtbell said it is defined in paris by a piece of metal which is defined to be 1Kg
 

Thread 'Need help understanding particle physics and quantum physics'

So I know that electrons are fundamental, there's no 'material' that makes them up, it's like talking about a colour itself rather than a car or a flower. Now protons and neutrons and quarks and whatever other stuff is there fundamentally, I want someone to kind of teach me these, I have a lot of questions that books might not give the answer in the way I understand. Thanks
View full post »

Thread 'Raman Spectroscopy help'

I am attempting to use a Raman TruScan with a 785 nm laser to read a material for identification purposes. The material causes too much fluorescence and doesn’t not produce a good signal. However another lab is able to produce a good signal consistently using the same Raman model and sample material. What would be the reason for the different results between instruments?
View full post »

Similar threads

I What can we scientifically measure directly?
Replies
27
Views
4K
B Inertial Mass vs Gravitational Mass
Replies
6
Views
1K
Force: F=ma & Effects on Momentum
Replies
12
Views
2K
I Cavendish balance and mass of objects
Replies
6
Views
1K
Explain why applying different forces to objects of different masses result in different accelerations
Replies
9
Views
1K
What is the Exact Meaning of F=dp/dt?
Replies
5
Views
6K
I The answer for the total mass of the Universe?
Replies
36
Views
2K
I Force on Scale in Rocket Scenario: Calculation & Discussion
Replies
33
Views
2K
Law of inertia (inertial observer and inertial frames of reference)
Replies
2
Views
1K
2D rigid body mechanics: force applied on sliding cart
Replies
14
Views
955

Hot Threads

Recent Insights

Back
Top