Surface Areas 

course PHY 201

June 7 around 9:40 pm

Question: `q001. What is surface area of a rectangular solid whose dimensions are 3 meters by 4 meters by 6 meters?YYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYYY

Your solution:

To get the surface area of a rectangular solid you use the formula: A = 2(lh) + 2(lw) + 2 (wh). I am going to assume that 3 is the height, 4 is the width, and 6 is the length. Then, I just plug them into the formula and solve: A = 2(6*3) + 2(6*4) + 2(4*3) = 2*18 + 2*24 + 2*12 = 108 meters is the surface area.

confidence rating #$&* 3

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Given Solution:

`aA rectangular solid has six faces (top, bottom, front, back, left side, right side if you're facing it). The pairs top and bottom, right and left sides, and front-back have identical areas. This solid therefore has two faces with each of the following dimensions: 3 m by 4 m, 3 m by 6 m and 4 m by 6 m, areas 12 m^2, 18 m^2 and 24 m^2. Total area is 2 * 12 m^2 + 2 * 18 m^2 + 2 * 24 m^2 = 108 m^2.

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Self-critique (if necessary):OK

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Self-critique rating #$&* 3

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Question: `q002. What is the surface area of the curved sides of a cylinder whose radius is five meters and whose altitude is 12 meters? If the cylinder is closed what is its total surface area?

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Your solution:

First, I am going to find the area of a circle whose radius is 5: A = pi * 5^2 = 25 pi m^2. Next, I am going to find the total surface area of the cylinder, which the formula is: A = 2 pi * r * l + 2 pi * r^2 = 2 pi * 5 *12 + 2 pi * 5^2 = 120 pi + 50 pi = 170 pi cm^2 is the total surface area. So, the surface area of the cylinder with just the curved sides could be computed by subtracting the area of both the ends from the total surface area: 170 pi – 50 pi (because they are two ends) = 120 pi cm^2.

confidence rating #$&* 2

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Given Solution:

The circumference of this cylinder is 2 pi r = 2 pi * 5 m = 10 pi m. If the cylinder was cut by a straight line running up its curved face then unrolled it would form a rectangle whose length and width would be the altitude and the circumference. The area of the curved side is therefore

A = circumference * altitude = 10 pi m * 12 m = 120 pi m^2.

If the cylinder is closed then it has a top and a bottom, each a circle of radius 5 m with resulting area A = pi r^2 = pi * (5 m)^2 = 25 pi m^2. The total area would then be

total area = area of sides + 2 * area of base = 120 pi m^2 + 2 * 25 pi m^2 = 170 pi m^2.

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Self-critique (if necessary):

I got the surface area right, but I think I read the question wrong about the getting the area, but I got the answers right.

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Self-critique rating #$&* 3

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Question: `q003. What is surface area of a sphere of diameter three cm?

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Your solution:

To get the surface area of a sphere you use the formula: A = 4 pi * r^2 The diameter is three, therefore the radius is 1.5 cm, so you plug it in the formula and solve: A = 4 pi * 1.5^2 = 9 pi cm^2 is the surface area.

confidence rating #$&* 3

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Given Solution:

`aThe surface area of a sphere of radius r is A = 4 pi r^2. This sphere has radius 3 cm / 2, and therefore has surface area

A = 4 pi r^2 = 4 pi * (3/2 cm)^2 = 9 pi cm^2.

NOTE TO STUDENT:

While your work on most problems has been good, you left this problem blank and didn't self-critique.

You should self-critique here.

• For example you should acknowledge having made note of the formula for the surface area of the sphere, which I expect you didn't know before.

I expect from your previous answers that you are very capable of applying the formula once you have it, and based on this history you probably wouldn't need to self-critique that aspect of the process.

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Self-critique (if necessary):OK

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Self-critique rating #$&* 3

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Question: `q004. What is hypotenuse of a right triangle whose legs are 5 meters and 9 meters?

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Your solution:

To get the hypotenuse of a triangle you simply use the Pythagorean Theorem: a^2 + b^2 = c^2, where a and b is the legs and c is the hypotenuse. So, I put the legs in the formula and get the hypotenuse: 5^2 + 9^2 = 25 + 81 = 106 Then I take the square root of the 106, which gives me 10.3 meters for the hypotenuse.

confidence rating #$&* 3

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Given Solution:

`aThe Pythagorean Theorem says that the hypotenuse c of a right triangle with legs a and b satisfies the equation c^2 = a^2 + b^2. So, since all lengths are positive, we know that

c = sqrt(a^2 + b^2) = sqrt( (5 m)^2 + (9 m)^2 ) = sqrt( 25 m^2 + 81 m^2) = sqrt( 106 m^2 ) = 10.3 m, approx..

Note that this is not what we would get if we made the common error of assuming that sqrt(a^2 + b^2) = a + b; this would tell us that the hypotenuse is 14 m, which is emphatically not so. There is no justification whatsoever for applying a distributive law (like x * ( y + z) = x * y + x * z ) to the square root operator.

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Self-critique (if necessary):OK

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Self-critique rating #$&* 3

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Question: `q005. If the hypotenuse of a right triangle has length 6 meters and one of its legs has length 4 meters what is the length of the other leg?

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Your solution:

You can use the Pythagorean Theorem for the problem as well, just change the formula around to solve for a leg: c^2 - b^2 = a^2. So, you the one leg and hypotenuse in and solve: 6^2 - 4^2 = 20 Then take the square root of the 20 and you get: 4.5 meters

confidence rating #$&* 3

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Given Solution:

`aIf c is the hypotenuse and a and b the legs, we know by the Pythagorean Theorem that c^2 = a^2 + b^2, so that a^2 = c^2 - b^2. Knowing the hypotenuse c = 6 m and the side b = 4 m we therefore find the unknown leg:

a = sqrt( c^2 - b^2) = sqrt( (6 m)^2 - (4 m)^2 ) = sqrt(36 m^2 - 16 m^2) = sqrt(20 m^2) = sqrt(20) * sqrt(m^2) = 2 sqrt(5) m,

or approximately 4.4 m.

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Self-critique (if necessary): OK

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Self-critique rating #$&* 3

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Question: `q006. If a rectangular solid made of a uniform, homogeneous material has dimensions 4 cm by 7 cm by 12 cm and if its mass is 700 grams then what is its density in grams per cubic cm?

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Your solution:

First, I am going to find the volume of the rectangular solid by using the formula V = l * w * h = 4*7*12 = 336 cm^3. Then I am going to divide 700 into 336 to find out the density in grams per cubic cm, because the formula for density is mass divided by the volume: 700 g / 336 cm^3 = 2.08 g/cm^3.

confidence rating #$&* 3

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Given Solution:

`aThe volume of this solid is 4 cm * 7 cm * 12 cm = 336 cm^3.

Its density in grams per cm^3 is the number of grams in each cm^3. We find this quantity by dividing the number of grams by the number of cm^3. We find that

• density = 700 grams / (336 cm^3) = 2.06 grams / cm^3.

Note that the solid was said to be uniform and homogeneous, meaning that it's all made of the same material, which is uniformly distributed. So each cm^3 does indeed have a mass of 2.06 grams.

• Had we not known that the material was uniform and homogeneous we could have said that the average density is 2.06 grams / cm^3, but not that the density is 2.06 grams / cm^3 (for example the object could be made of two separate substances, one with density less than 2.06 grams / cm^3 and the other with density greater than 2.06 g / cm^3, in appropriate proportions; neither substance would have density 2.06 g / cm^3, but the average density could be 2.06 g / cm^3).

NOTE TO STUDENT: (in this note the instructor attempts to clarify the idea of 'demonstrating what you do and do not understand about the statement of the problem' and 'giving a phrase-by-phrase analysis of the given solution')

You did not respond to the question and did not self-critique.

You would be expected to address the question, stating what you do and do not understand.

• For example you should understand what a rectangular solid with dimensions 4 cm by 7 cm by 12 cm is, and how to find its volume and surface area. You might not know what to do with this information (for example you might well not understand that it's the volume and not the surface area that's related to density), but from previous work you should understand this much, and should at least mention something along the lines of 'well, I do know that I can find the volume and/or surface area of that solid' in a partial solution.

• The word 'density' is clearly very important. Even if you don't know what density is, you could note from the statement of the problem that its units here are said to be 'grams per cubic centimeter'.

Having noted these things, you will be much better prepared to understand the information in the given solution.

Then you need to address the information in the given solution. A 'phrase-by-phrase' analysis is generally very beneficial:

• I expect you understand the first statement from previous knowledge (you should have this understanding from prerequisite courses, and if not you encountered it in the preceding 'volumes' exercise): 'The volume of this solid is 4 cm * 7 cm * 12 cm = 336 cm^3.' It would of course be appropriate to ask a question here if necessary.

• It is likely that, as is the case with many students, the concept of density is not that familiar to you. However if this wasn't addressed specifically in prerequisite courses, those courses would be expected to prepare you to understand this concept. The statement 'Its density in grams per cm^3 is the number of grams in each cm^3.' serves as a definition of density. In your self-critique you should have addressed what what this phrase means to you, and what you do or do not understand about it

• The next phrase is 'We find this quantity by dividing the number of grams by the number of cm^3.' You would be expected to understand that this phrase is related to the preceding, and as best you can to address the connection. At this point many students would need to ask a question, and it would be perfectly appropriate to do so (or to have done so regarding previous statements).

• The subsequent phrase 'density = 700 grams / (336 cm^3) = 2.06 grams / cm^3' is an illustration of the ideas and definitions in the preceding statements. A reasonable self-critique would demonstrate your attempt to understand this statement and its connection to the preceding. Once again questions would also be appropriate and welcome.

• The above addresses sufficient information to solve the problem. If you get to this point, you're probably doing OK and you wouldn't necessarily be expected to address the rest of the given solution, which expands on the finer details of the problem and provides additional information. The basic prerequisite courses should have prepared you to understand the information, but students entering Liberal Arts Mathematics, College Algebra and even Precalculus or Applied Calculus (or Physics 121-122) courses probably don't need to address anything beyond the basic solution at this point. Though Precalculus and Applied Calculus students could benefit from doing so, and if time permits would certainly be encouraged to do so, time is also a factor and it would be understandable if these students chose to move on.

• Students entering the Mth 173-4 sequence or the Phy 201-202 or 231-232 sequence would be expected to either completely understand all the details of the given solution, or address them in your self-critique.

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Self-critique (if necessary): Ok

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Self-critique rating #$&* 3

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Question: `q007. What is the mass of a sphere of radius 4 meters if its average density is 3,000 kg/cubic meter?

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Your solution:

First I am going to find the volume of the sphere by using the formula: V = 4/3 pi * r^3 = 4/3 pi * 4^3 = 256/3 pi m^3. You use the density formula, but change it around to where you can solve for the mass instead of the density: Mass = 3,000 kg/m^3 * (256/3 pi m^3) = 256,000 pi kg or 804247.7 kg.

confidence rating #$&* 3

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Given Solution:

`aA average density of 3000 kg / cubic meter implies that, at least on the average, every cubic meter has a mass of 3000 kg. So to find the mass of the sphere we multiply the number of cubic meters by 3000 kg.

The volume of a sphere of radius 4 meters is 4/3 pi r^3 = 4/3 * pi (4m)^3 = 256/3 * pi m^3. So the mass of this sphere is

mass = density * volume = 256 / 3 * pi m^3 * 3000 kg / m^3 = 256,000 * pi kg.

This result can be approximated to an appropriate number of significant figures.

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Self-critique (if necessary):OK

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Self-critique rating #$&* 3

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Question: `q008. If we build an object out of two pieces of material, one having a volume of 6 cm^3 at a density of 4 grams per cm^3 and another with a volume of 10 cm^3 at a density of 2 grams per cm^3 then what is the average density of this object?

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Your solution:

First you find the mass of the whole object by multiplying the volume by its density: 6 cm^3 * 4 g/cm^3 = 24 grams ; 10 cm^3 * 2 g/cm^3 = 20 grams. Then add the two grams together; 24+20= 44 grams. Then you add the volumes together to get the total volume: 10 + 6 = 16 cm^3. Then, You use the density formula and solve for the average density: D = 44 g / 16 cm^3 = 2.75 g/cm^3.

confidence rating #$&* 3

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Given Solution:

`aThe first piece has a mass of 4 grams / cm^3 * 6 cm^3 = 24 grams. The second has a mass of 2 grams / cm^3 * 10 cm^3 = 20 grams. So the total mass is 24 grams + 20 grams = 44 grams.

The average density of this object is

average density = total mass / total volume = (24 grams + 20 grams) / (6 cm^3 + 10 cm^3) = 44 grams / (16 cm^3) = 2.75 grams / cm^3.

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Self-critique (if necessary):OK

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Self-critique rating #$&* 3

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Question: `q009. In a large box of dimension 2 meters by 3 meters by 5 meters we place 27 cubic meters of sand whose density is 2100 kg/cubic meter, surrounding a total of three cubic meters of cannon balls whose density is 8,000 kg per cubic meter. What is the average density of the material in the box?

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Your solution:

First, you multiply the volume and the density to get the weight of the material: 27 m^3 * 2100 kg/m^3 = 56700 kg ; 3 m^3 * 8000 kg/m^3 = 24000 kg. Then you add the kg together and get 80700 kg for the mass. Then, you need the total volume, which you get that from adding the m^3 together: 27 m^3 + 3 m^3 = 30 m^3. Finally, you use the density formula and solve: D = 80,700 kg / 30 m^3 = 2,690 kg/m^3. So, the box, which is 30 m^3, is completely full!

confidence rating #$&* 3

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Given Solution:

`aWe find the average density from the total mass and the total volume. The mass of the sand is 27 m^3 * 2100 kg / m^3 = 56,700 kg. The mass of the cannonballs is 3 m^3 * 8,000 kg / m^3 = 24,000 kg.

The average density is therefore

average density = total mass / total volume = (56,700 kg + 24,000 kg) / (27 m^3 + 3 m^3) = 80,700 kg / (30 m^3) = 2,700 kg / m^3, approx..

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Self-critique (if necessary):OK

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Self-critique rating #$&* 3

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Question: `q010. How many cubic meters of oil are there in an oil slick which covers 1,700,000 square meters (between 1/2 and 1 square mile) to an average depth of .015 meters? If the density of the oil is 860 kg/cubic meter then what is the mass of the oil slick?

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Your solution:

First I am going to multiply 1,700,000 m^2 * .015 m = to get the volume of the oil, which is: 25,500 m^3. Then if use the density formula but change it around and solve: 860 kg/m^2 * 25,500 m^3 = 21,930,000 kg is the mass of the oil slick.

confidence rating #$&* 2

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Given Solution:

`aThe volume of the slick is V = A * h, where A is the area of the slick and h the thickness. This is the same principle used to find the volume of a cylinder or a rectangular solid. We see that the volume is

V = A * h = 1,700,000 m^2 * .015 m = 25,500 m^3.

The mass of the slick is therefore

mass = density * volume = 860 kg / m^3 * 25,500 m^3 = 21 930 000 kg.

This result should be rounded according to the number of significant figures in the given information.

STUDENT QUESTION

I didn’t round to the most significant figure. ???? How important is this?

INSTRUCTOR RESPONSE

It will be important.

This document is preliminary; the issue of significant figures will be addressed more specifically as we move into the course.

Right now I just want you to be aware of the general idea.

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Self-critique (if necessary): Ok

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Self-critique rating #$&* 3

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Question: `q011. Part 1 Summary Question 1: How do we find the surface area of a cylinder?

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Your solution:

We would use the formula: A = 2 pi * r * l + 2 pi *r^2, where r is the radius and l is the length.

confidence rating #$&* 3

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Given Solution:

`aThe curved surface of the cylinder can be 'unrolled' to form a rectangle whose dimensions are equal to the circumference and the altitude of the cylinder, so the curved surface has volume

A curved = circumference * altitude = 2 pi r * h, where r is the radius and h the altitude.

The top and bottom of the cylinder are both circles of radius r, each with resulting area pi r^2.

{]The total surface area is therefore

A cylinder = 2 pi r h + 2 pi r^2.

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Self-critique (if necessary):

Mine is a little different on length vs. height, but basically the same thing.

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Self-critique rating #$&* 3

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Question: `q012. Part 1 Summary Question 2: What is the formula for the surface area of a sphere?

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Your solution:

The formula for the surface are of a sphere would be: A = 4 pi * r^2, where r is the radius.

confidence rating #$&* 3

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Given Solution:

`aThe surface area of a sphere is

A = 4 pi r^2,

where r is the radius of the sphere.

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Self-critique (if necessary): OK

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Self-critique rating #$&* 3

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Question: `q013. Part 1 Summary Question 3: What is the meaning of the term 'density'.

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Your solution:

Density is the mass of the object over or divided by the volume of the object.

confidence rating #$&* 3

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Given Solution:

`aThe average density of an object is its mass per unit of volume, calculated by dividing its total mass by its total volume. If the object is uniform and homogeneous then its density is constant and we can speak of its 'density' as opposed to its 'average density'

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Self-critique (if necessary): OK

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Self-critique rating #$&* 3

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Question: `q014. Part 1 Summary Question 4: If we know average density and mass, how can we find volume?

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Your solution:

You can use the density formula, but it has to be changed around to solve for volume: Volume = Mass / Density.

confidence rating #$&* 3

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Given Solution:

Since mass = ave density * volume, it follows by simple algebra that volume = mass / ave density.

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Self-critique (if necessary): Ok

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Self-critique rating #$&* 3

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Question: `q015. Part 1 Explain how you have organized your knowledge of the principles illustrated by the exercises in this assignment.

I have organized my knowledge of the principles used by these exercises by recognizing the problems and connecting the formulas with the right problems, which is very important when solving for the correct answer.

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&#Good work. Let me know if you have questions. &#

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