- #1

Brajesh kedia

Please explain what practically & exactly they are and how both formula has came exactly.

Please explain each with a practical demonstration showing them or giving exact concept and there relation..

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- Thread starter Brajesh kedia
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- #1

Brajesh kedia

Please explain what practically & exactly they are and how both formula has came exactly.

Please explain each with a practical demonstration showing them or giving exact concept and there relation..

- #2

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When we kidding, we ask young students: what have more weight, 1(kg) of iron or 1(kg) of cotton?

Definition of mass density can answer this (stupid) question. Because to take 1(kg) of iron you need about 135(cm^{3}) of material but to take 1(kg) of cotton you need many litres.

This definition have this form because we like. We make easier calculation. We can ignore this but thus we need to give explanations every time about*m* and *V* on a problem.

Another example is the mass density of printing paper measured on (gr/m^{2}). Because thus is useful.

Definition of mass density can answer this (stupid) question. Because to take 1(kg) of iron you need about 135(cm

This definition have this form because we like. We make easier calculation. We can ignore this but thus we need to give explanations every time about

Another example is the mass density of printing paper measured on (gr/m

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- #3

Simon Bridge

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You will need to tell me what was wrong with the explanations you have had so far in order for me to answer the question properly.

Mean-time:

Simply put: "mass" is how much stuff an object has, and it's "volume" is how much space it occupies.

"mass density" (usually just "density") therefore, is the amount of stuff that occupies a unit volume.

theodoros.mihos provides reasonable examples.

technical note: "weight", in physics, is the magnitude of the gravitational force acting on an object.

- #4

Brajesh kedia

- #5

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I could go into a deeper analysis of orthogonal dimensions and such, but I don't think that would help you actually. I think you should just accept the fact that the volume of a "box" (i.e. a rectangular prism) is V=height*width*depth. Since those are all the same in a cube, the volume becomes a^3.

In short, that's just how volume is defined.

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- #7

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Please explain what practically & exactly they are and how both formula has came exactly.

Please explain each with a practical demonstration showing them or giving exact concept and there relation..

Volume is a measure of how a given frame of reference predicts an amount of space within a confined area.

Density is the amount of matter within a volume, which also depends on frame of reference.

Isn't it that simple?

- #8

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Also, it doesn't predict anything. It's a measurement.

- #9

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Also, it doesn't predict anything. It's a measurement.

If you have a box that travels at a relativistic velocity, it will be measured as thinner. A measurement is also a prediction since nothing which is objective can be proven.

It would be wrong to say that volume is the measure of amount of space, since we cannot be informed about space. Thus it is how we predict space that relates to any definition of volume. We are just informed about relative velocities and predictions of relativistic effects due to different frames of references and thus not informed about true space. At least not according to my own philosophical stance consisting of only one true frame of reference, which I cannot discuss further on this forum.

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He was curious to why teachers had trouble explaining these concepts. Perhaps relativity is exactly why.

- #12

Chestermiller

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What could possibly make you think this? Please stop confusing the OP by bringing relativity into the picture, or you will be receiving some infraction points.He was curious to why teachers had trouble explaining these concepts. Perhaps relativity is exactly why.

Chet

- #13

Simon Bridge

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Volume is just a special word for the size of a room - it is how much space there is inside a boundary.

This is a concept you can hold in your head quite easily - some spaces you can fit lots into and some not so much. You should have an idea of what a volume

You may, personally, have a feel for how big a particular space is, but what if you need to tell someone else how big it is? You could just show them, but the volume may be difficult to move about. You need a way to tell them how big your room is without them having to see it.

You could make a small model of the room, show them the model, and say "the room is just like this but 1000x bigger" or whatever. Then they would have an idea. But then you need to make a different model for every space you need to talk about - which can be cumbersome to carry around. Instead, it is more useful to make one small object and compare all spaces to that one ... you can say "the room is just like this cube only 5x wider, 3x taller, and 6x longer".

This object, then, becomes the "unit of volume" and the volume of the room becomes how many of those units you can fit inside the room.

By convention we use a cube as our unit of volume. We don't have to, but it is handy because simple rooms are rectangular.

To find the volume of a rectangular room, then, you fill it with unit cubes so there are no gaps and then just count them all.

That's the volume. Everyone will understand wat we mean when we say the vlume is 235 unit cubes, provided we also show them the particular size cube we used.

By definition, the unit cube is 1 unit of volume.

But there is a shortcut - you can just count how many cubes fit along each edge of the room and multiply them together. When you do that, the product is the same as the total number of cubes - only you didn't have to count them all one at a time. So if the room was a cubes long, b cubes deep, and c cubes tall, then the volume is V=abc.

If b=a and c=a then V=a

With different shaped volumes we have to use other tricks to work out how many unit cubes fit inside it.

This is how all measures are done - to find a distance, we work out how many unit lengths fit inside that distance and we call that "

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Nice description, Simon.

- #15

Simon Bridge

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When I was in High School, 1kg was the mass of a lump of metal (lead I think) kept in a vault in France.

When we said that someone massed, say, 55kg, what we mean is that if that person stood on one side of a balance you would need 55 of those lumps of metal to make the balance, well,

I want you to notice that one unit mass occupies some volume ... and two unit weights occupies twice that volume... and so on.

Also, some things that have 1 unit mass have more volume than other things with one unit mass.

For example: 1kg of feathers occupies much more space than 1kg of lead ... and 1litre of lead weight a lot more than 1litre of feathers.

So it becomes useful to find out how much unit mass fits into one unit volume.

This quantity is named "density".

You can find the density of something by assembling 1 unit volume of it and finding out how many unit masses that comes to.

This is seldom convenient - i.e. the King may object to us bashing his crown into a cube (see

Fortunately there is a shortcut that involves exploiting the relationship between mass and volume implied by the definition: If 1 unit volume has mass ##\rho## unit masses, then ##V## unit volumes must have mass: #m=\rho V## unit masses (that's just normal arithmetic). Rearranging: ##\rho=m/V##

... and that's how you get the formula.

All the various formulas are like that ... you start with a common concept, define it more carefully, then work out how it is related to other things.

The maths is a description of that relationship which is just a fancy way of counting.

You should find a description of how things get measured at the start of a junior undergraduate or secondary-level physics text book.

But they don't usually go into this much detail.

In science it is not good enough to measure things, it is also important to know how the different measures are related to each other.

Was this any use?

- #16

nasu

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No, he was curious why teachers have trouble explaining them toHe was curious to why teachers had trouble explaining these concepts. Perhaps relativity is exactly why.

It seems that it may be just another example of the general question "what does it

- #17

Brajesh kedia

This quantity is named "density".

You can find the density of something by assembling 1 unit volume of it and finding out how many unit masses that comes to.

This is seldom convenient - i.e. the King may object to us bashing his crown into a cube (see

Fortunately there is a shortcut that involves exploiting the relationship between mass and volume implied by the definition: If 1 unit volume has mass ##\rho## unit masses, then ##V## unit volumes must have mass: #m=\rho V## unit masses (that's just normal arithmetic). Rearranging: ##\rho=m/V##

... and that's how you get the formula.

Quite difficulty in understanding this

- #18

Brajesh kedia

- #19

Simon Bridge

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Please explain what you find difficult. Don't make me guess.Quite difficulty in understanding this

Which country/jurisdiction are you studying an and at what level?

I know that many countries have a standard "by rote" approach to teaching up to senior undergrad level - the student is expected to accept the definitions, do the coursework as a kind-of abstract mathematics, and make the connections to the real world on their own. It's part of the test - students who are unable to make the connections ultimate fail the final exam.

However, the concepts you are talking about above should have been pretty clear intuitively - i.e. you live with and within volumes all your life: how can you not know what it is?

Is it really surprising that people don't know how to answer your question when nobody has much reason to think about it? Consider: how many of your fellow students struggle with the same or similar issues?

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- #20

Brajesh kedia

Right now i am in class 12 and all the teachers(qualified level ass well) failed to clear the doubts and my friends dont care or even dare to ask and just use formulas and i cant accept the formulas and definations like that so i get demotivated when they find solutions easily.But the magical thing about me is that if they have solved lots of question and a tricky question is given they dont dare to attempt and as i think nothing in world can be hard and when concepts are clear i solve it in seconds...

Planning to work for a great revolution with some leaders(great personalities) as I found when i teach(where obviously i am cleared with concept) my students 99% doubts are cleared.

On the mission towards a great change..your small helps which is bigger for me would mean a lot...thank u..

- #21

Brajesh kedia

I guess when the solid is full compact the mass and volume must be same but units should also be same ..am confused..?? And density is compactness so what is the value of density when a body is totally compact

- #22

Brajesh kedia

- #23

Simon Bridge

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[edit] Excuse - our posts crossed each other. I see you have tried to do that.

Aside: English language note - in "qualified level ass well" the "ass" should be "as" (only one "s".)

An "ass" is a donkey, the part of your body that you sit on, or a stupid person, so it is important not to mix it up ;)

Your English is generally good though. Howrah is the place I know as "Haora" - West Bengal, India. I've had teachers from there so I think I know what you mean.

You may want to have a look at the teaching resources from other countries that you will find online.

- #24

Simon Bridge

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Mass cannot be equal to volume in the same way that an elephant cannot be equal to a snake. As you have realized, they are completely different things.~~Sir~~can you please clear me wi[th] this first how can mass be equal to volume[?]

You are free to choose any prototype you like for units - though "prototype" is not quite the right word.

You can choose to make 1 unit volume to be "the volume occupied by 1kg of lead" if you want to, then different properties of the same object can be used to show people the units for volume and mass.

- #25

Brajesh kedia

I know that mass and volume are if a container is totally packed and filled wwith matter and if not than mass is less...mass can never be greater than volune

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