UnitsofVolumeMeasure

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course Phy 121

9/10 2:15 pm

004. Units of volume measure

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Question: `q001. There are 10 questions and 5 summary questions in this assignment.

How many cubic centimeters of fluid would require to fill a cubic container 10 cm on a side?

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Your solution:

We need to find the volume of the container.

V= L*W*h

V= 10cm * 10cm *10 cm = 1000 cm^3.

It would take 1000 cm^3 of liquid to fill the container.

???Is it appropriate to use the unit ""cc"" for cm^3 or is that just for medicine???

@&

In physics you want to use cm^3, though if you slip up and use "cc" I'll know what you mean.

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confidence rating #$&*:3

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Given Solution:

`aThe volume of the container is 10 cm * 10 cm * 10 cm = 1000 cm^3. So it would take 1000 cubic centimeters of fluid to fill the container.

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Self-critique (if necessary):OK

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Self-critique Rating:OK

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Question: `q002. How many cubes each 10 cm on a side would it take to build a solid cube one meter on a side?

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Your solution:

1 meter is 100 cm, so you would need 100cm/10cm or 10 blocks of 10 cm in each row (length), column (width) and tower (height)

10 * 10 *10 = 1000

You would need 1000 of these blocks.

confidence rating #$&*:3

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Given Solution:

`aIt takes ten 10 cm cubes laid side by side to make a row 1 meter long or a tower 1 meter high. It should therefore be clear that the large cube could be built using 10 layers, each consisting of 10 rows of 10 small cubes. This would require 10 * 10 * 10 = 1000 of the smaller cubes.

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Self-critique (if necessary):OK

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Self-critique Rating:OK

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Question: `q003. How many square tiles each one meter on each side would it take to cover a square one km on the side?

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Your solution:

1 km is 1000 m. This is an area problem. You would need 1000 tiles in length by 1000 tiles in width.

A=L*W

A= 1000 * 1000

A= 1,000,000

One million tiles

confidence rating #$&*:3

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Given Solution:

`aIt takes 1000 meters to make a kilometer (km). To cover a square 1 km on a side would take 1000 rows each with 1000 such tiles to cover 1 square km. It therefore would take 1000 * 1000 = 1,000,000 squares each 1 m on a side to cover a square one km on a side.

We can also calculate this formally. Since 1 km = 1000 meters, a square km is (1 km)^2 = (1000 m)^2 = 1,000,000 m^2.

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Self-critique (if necessary):OK

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Self-critique Rating:OK

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Question: `q004. How many cubic centimeters are there in a liter?

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Your solution:

A cubic centimeter is equal to a mililiter. There are 1000 mililiters in a liter so there are 1000 cubic centimeters in a liter.

confidence rating #$&*:OK

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Given Solution:

`aA liter is the volume of a cube 10 cm on a side. Such a cube has volume 10 cm * 10 cm * 10 cm = 1000 cm^3. There are thus 1000 cubic centimeters in a liter.

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Self-critique (if necessary):OK

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Self-critique Rating:OK

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Question: `q005. How many liters are there in a cubic meter?

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Your solution:

A liter is a voluem of a cube with 10cm each side Since a meter is 100 cm and 100cm/10cm = 10 it means that the cube with 10cm on each side would be in rows of 10, columns of 10 and layers of 10 to fill up a cubic meter.

10* 10 * 10 = 1000

There would be 1000 liters in a cubic meter.

confidence rating #$&*:

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Given Solution:

`aA liter is the volume of a cube 10 cm on a side. It would take 10 layers each of 10 rows each of 10 such cubes to fill a cube 1 meter on a side. There are thus 10 * 10 * 10 = 1000 liters in a cubic meter.

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Self-critique (if necessary):OK

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Self-critique Rating:OK

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Question: `q006. How many cm^3 are there in a cubic meter?

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Your solution:

There are 1000 cm^3 in a liter and 1000 liters in cubic meter. Therefore there are 1000 * 1000 cm^3 in 1 cubic meter.

1000 *1000 cm^3= 1,000,0000 cm^3

confidence rating #$&*:3

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Given Solution:

`aThere are 1000 cm^3 in a liter and 1000 liters in a m^3, so there are 1000 * 1000 = 1,000,000 cm^3 in a m^3.

It's important to understand the 'chain' of units in the previous problem, from cm^3 to liters to m^3. However another way to get the desired result is also important:

There are 100 cm in a meter, so 1 m^3 = (1 m)^3 = (100 cm)^3 = 1,000,000 cm^3.

STUDENT COMMENT

It took me a while to decipher this one out, but I finally connected the liters to cm^3 and m^3. I should have calculated it by just converting units, it would have been easier.

INSTRUCTOR RESPONSE

The point isn't just conversion. There are two points to understanding the picture. One is economy of memory: it's easier to remember the picture than the conversion factors, which can easily be confused. The other is conceptual/visual: the picture gives you a deeper understanding of the units.

In the long run it's easier to remember that a liter is a 10-cm cube, and a cubic meter is a 100-cm cube.

Once you get this image in your mind, it's obvious how 10 layers of 10 rows of 10 one-cm cubes forms a liter, and 10 layers of 10 rows of 10 one-liter cubes forms a cubic meter.

Once you understand this, rather than having a meaningless conversion number you have a picture that not only gives you the conversion, but can be used to visualize the meanings of the units and how they are applied to a variety of problems and situations.

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Self-critique (if necessary):OK

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Self-critique Rating:OK

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Question: `q007. If a liter of water has a mass of 1 kg the what is the mass of a cubic meter of water?

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Your solution:

Since a cubic meter is equal to 1000 liters

(1kg/1 L) * 1000 L = 1,000 kg. (the Liters can out leaving us with1,000 kg)

The mass of a cubic meter of water is 1,000 kg

confidence rating #$&*:3

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Given Solution:

Since there are 1000 liters in a cubic meter, the mass of a cubic meter of water will be 1000 kg. This is a little over a ton.

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Self-critique (if necessary):OK

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Self-critique Rating:OK

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Question: `q008. What is the mass of a cubic km of water?

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Your solution:

a cubic km of water is big. It is 1000 cubic meters on each side so 1000 rows, 1000 columns and 1000 layres.

1000 * 1000 * 1000 = 1,000,000,000 cubic meters

each of those cubic meters has a mass of 1000 kg

1,000,000,000 cubicmeters * 1000kg/cubic meter = 1,000,000,000,000 kg

1 trillion kg

confidence rating #$&*:3

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Given Solution:

`aA cubic meter of water has a mass of 1000 kg. A cubic km is (1000 m)^3 = 1,000,000,000 m^3, so a cubic km will have a mass of 1,000,000,000 m^3 * 1000 kg / m^3 = 1,000,000,000,000 kg.

In scientific notation we would say that 1 m^3 has a mass of 10^3 kg, a cubic km is (10^3 m)^3 = 10^9 m^3, so a cubic km has mass (10^9 m^3) * 1000 kg / m^3 = 10^12 kg.

STUDENT QUESTION

I don’t understand why you multiplied the 1,000,000,000 m^3 by 1000 km/m^3. I also don’t understand where the (1000m)^3 came from. I thought I had this problem but it stumped me. It is probably something really simple that I am missing. ???

INSTRUCTOR RESPONSE

A km is 1000 meters, but a cubic km is a cube 1000 meters on a side. It would take 1000 m^3 just to make a single row of 1-m cubes 1000 meters long, and you would hardly have begun constructing a cubic kilometer. You would need 1000 such rows just to cover a 1-km square 1 meter deep, and 1000 equal layers to build a cube 1 km high.

Each layer would require 1000 * 1000 cubic meters, and 1000 layers would require 1000 times this many 1-meter cubes.

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Self-critique (if necessary):OK

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Self-critique Rating:OK

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Question: `q009. If each of 5 billion people drink two liters of water per day then how long would it take these people to drink a cubic km of water?

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Your solution:

If each of 5 billion consume 2 liters of water per day we have 5 billion persons * 2 liters/person = 10 billion liters per day.

A cubic meter is equal to 1000 liters. There are a billion cubic meters in a cubic km.

This is a lot of zeroes so we'll put it into scientific notation.

(1.0 * 10^9 m^3/1 km^3) * (1.0 10 ^3 L/m^3) = 1.0 * 10^12 L/km^3

So we have 1.0 * 10^12 L being consumed at a rate of 1.0 * 10^10 L/day

1.0 * 10^12 L * 1 day/ 1.0 * 10^10 L

Liters cancel out and we are left with

1.0 * 10^2 days or 100 days.

confidence rating #$&*:2

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Given Solution:

`a5 billion people drinking 2 liters per day would consume 10 billion, or 10,000,000,000, or 10^10 liters per day.

A cubic km is (10^3 m)^3 = 10^9 m^3 and each m^3 is 1000 liters, so a cubic km is 10^9 m^3 * 10^3 liters / m^3 = 10^12 liters, or 1,000,000,000,000 liters.

At 10^10 liters per day the time required to consume a cubic km would be

time to consume 1 km^3 = 10^12 liters / (10^10 liters / day) = 10^2 days, or 100 days.

This calculation could also be written out:

1,000,000,000,000 liters / (10,000,000,000 liters / day) = 100 days.

STUDENT COMMENT

There came to be too many conversions for me to keep in memory all of the conversions about and how they work together, so I

had to write out all of the conversions next to each other and multiply them all out, even if I could have made some

shortcuts, such as the numbers of liters in a cubic meter.

INSTRUCTOR RESPONSE

You can easily visualize a 1-cm cube, a 10-cm cube and a 1-m cube. You should be able to visualize how each is built up from 1000 of the previous. If you understand the model and make it tangible there is no need to memorize anything, and you will have a significant measure of protections against errors with these quantities.

By understanding the meaning of the prefix 'kilo' it is easy enough to then relate these units to the somewhat less tangible cubic kilometer.

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Self-critique (if necessary):OK

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Self-critique Rating:OK

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Question: `q010. The radius of the Earth is approximately 6400 kilometers. What is the surface area of the Earth? If the surface of the Earth was covered to a depth of 2 km with water that what would be the approximate volume of all this water?

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Your solution:

Surface area = 4 * pi * r^2

= pi * 4 * 6400km * 6400km

= 163,840,000 pi km^2

= approximately 510,000,000 km^2

Now this is 2 km deep so

V = 510,000,000 km^2 * 2km = 1,020,000,000 km^3

confidence rating #$&*:2

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Given Solution:

`aThe surface area would be

A = 4 pi r^2 = 4 pi ( 6400 km)^2 = 510,000,000 km^2.

A flat area of 510,000,000 km^2 covered to a depth of 2 km would indicate a volume of

V = A * h = 510,000,000 km^2 * 2 km = 1,020,000,000 km^3.

However the Earth's surface is curved, not flat. The outside of the 2 km covering of water would have a radius 2 km greater than that of the Earth, and therefore a greater surface area. But a difference of 2 km in 6400 km will change the area by only a fraction of one percent, so the rounded result 1,020,000,000,000 km^3 would still be accurate.

STUDENT COMMENT

I thought that in general pi was always supposed to be expressed as pi when not asked for an approximate value so in the

first part of the problem I didn’t calculate pi. For the second part of the question I assumed approximate meant calculate

pi into the equation which would still be a less precise answer so I did not round any further. ???Should I have estimated

more than I did???

INSTRUCTOR RESPONSE

The given information says 'approximately 6400 km'.

Your result, 163,840,000pi km^2, is perfectly fine.

However most people aren't going to recognize 163,840,000 as 4 times the square of 6400 (unlike a result like 36 pi (easily enough seen as either 6^2 * pi, or 4 * 3^2 * pi)). Since the given information is accurate to only a couple of significant figures, there's no real advantage in the multiple-of-pi expression.

In the given solution the results are generally expressed to 2 significant figures, consistent with the 2 significant figures in the given 6400 km radius.

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Self-critique (if necessary):OK

I wouldn't have thought of the fact that the surface area of the water surface would need to be accounted for ( if we were going that way) . I understand why this would make a difference but I don't understand how we would really calculate it.

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Self-critique Rating:OK

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Question: `q011. Summary Question 1: How can we visualize the number of cubic centimeters in a liter?

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Your solution:

I imagine cubes with edges of 1 cm. These are laid out in rows and columns of 10 each for a base of 100 cm^2. 10 layers of these becomes 100cm^2 * 10cm = 1000cm^3.

confidence rating #$&*:3

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Given Solution:

Since a liter is a cube 10 cm on a side, we visualize 10 layers each of 10 rows each of 10 one-centimeter cubes, for a total of 1000 1-cm cubes. There are 1000 cubic cm in a liter.

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Self-critique (if necessary):OK

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Self-critique Rating:OK

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Question: `q012. Summary Question 2: How can we visualize the number of liters in a cubic meter?

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Your solution:

A liter is a volume that would fill a cube 10 cm^3

Since a meter has 100 centimeters, we could form a base of 10 * 10 or 100 cubes of 10cm^3.

We'd then stack these 10 high and get 1000 cubes of 10cm^3 which would mean we have 1000 liters in a cubic meter.

confidence rating #$&*:3

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Given Solution:

Since a liter is a cube 10 cm on a side, we need 10 such cubes to span 1 meter. So we visualize 10 layers each of 10 rows each of 10 ten-centimeter cubes, for a total of 1000 10-cm cubes. Again each 10-cm cube is a liter, so there are 1000 liters in a cubic meter.

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Self-critique (if necessary):OK

In most of your explanations you use rows while I use rows and colums. We get the same answer. ???Would my vision of 10 rows by 10 columns, be a valid answer for the base of this construction???

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Self-critique Rating:OK

@&

Your explanations are fine.

*@

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Question: `q013. Summary Question 3: How can we calculate the number of cubic centimeters in a cubic meter?

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Your solution:

There are 100 centimeters in a meter. So if you were using 1 cm cubes to build a cube of 1 cubic meter, you would have 100 rows by 100 columns stacked 100 high.

100 * 100 * 100 = 1,000,000

There are 1,000,000 cubic centimeters in 1 cubic meter.

confidence rating #$&*:3

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Given Solution:

`aOne way is to know that there are 1000 liters in a cubic meters, and 1000 cubic centimeters in a cubic meter, giving us 1000 * 1000 = 1,000,000 cubic centimeters in a cubic meter. Another is to know that it takes 100 cm to make a meter, so that a cubic meter is (100 cm)^3 = 1,000,000 cm^3.

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Self-critique (if necessary):OK

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Self-critique Rating:OK

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Question: `q014. Summary Question 4: There are 1000 meters in a kilometer. So why aren't there 1000 cubic meters in a cubic kilometer? Or are there?

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Your solution:

There are not.

If you imagine a cubic meter cube and you were going to use a bunch of them to build a giant cubic km, you would need a foundation of 1000 rows by 1000 columns and it would be 1000 layers high.

1000 * 1000 * 1000 of these cubes is 1,000,000,000 cubes.

Thus there are 1,000,000,000 cubic meters in a cubic kilometer.

confidence rating #$&*:3

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Given Solution:

`aA cubic kilometer is a cube 1000 meters on a side, which would require 1000 layers each of 1000 rows each of 1000 one-meter cubes to fill. So there are 1000 * 1000 * 1000 = 1,000,000,000 cubic meters in a cubic kilometer.

Alternatively, (1 km)^3 = (10^3 m)^3 = 10^9 m^3, not 1000 m^3.

STUDENT ANSWER to question:

Because a cubic kilometer is cubed. A regular kilometer is not going to contain as much as a cubic kilometer.

INSTRUCTOR RESPONSE

Kilometers and cubic kilometers don't measure the same sort of thing, so they can't be compared at all.

Kilometers measure distance, how far it is between two points.

Cubic kilometers measure volume, how much space there is inside of something (there is space, though not necessarily empty space, inside of any container or any 3-dimensional region, whether it's full of other stuff or not. If it's full of other stuff then we wouldn't say that it's 'empty space' or 'available space', but the amount of space inside is the same either way).

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Self-critique (if necessary):OK

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Self-critique Rating:OK

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Question: `q015. Explain how you have organized your knowledge of the principles illustrated by the exercises in this assignment.

I finally came around to the idea of imagining cubes as building blocks ( I just never visualized things that way. I always just thought in terms of edges). Now I imagine I'm a mason and I lay down a foundation in rows and colums which are in essesenc the base of the object. I then add the layers which are in essence the altitude of the obejct. Rows are length, columns are width and layers are altitude or height. V= l*w*h or V= rows * columns * layers

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Self-critique (if necessary):OK

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