ISEE Upper Level Quantitative : Geometry

Study concepts, example questions & explanations for ISEE Upper Level Quantitative

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Example Questions

Example Question #2 : Pyramids

A pyramid with a square base and a cone have the same height and the same volume. Which is the greater quantity?

(A) The perimeter of the base of the pyramid

(B) The circumference of the base of the cone

Possible Answers:

It is impossible to determine which is greater from the information given

(A) is greater

(A) and (B) are equal

(B) is greater

Correct answer:

(A) is greater

Explanation:

The volume of a pyramid or a cone with height  and base of area  is 

so in both cases, the area of the base is

Since the pyramid and the cone have the same volume and height, their bases has the same area .

The length of one side of the square base of the pyramid is the square root of this, or , and the perimeter is four times this, or .

The radius and the area of the base of the cone are related as follows:

Multiply both sides by  to get:

, so 

, and

The perimeter of the base of the pyramid, which is (A), is greater than the circumference of the base of the cone.

Example Question #1 : Cubes

Which is the greater quantity?

(a) The volume of a cube with surface area  inches

(b) The volume of a cube with diagonal  inches

Possible Answers:

(a) is greater.

(a) and (b) are equal.

(b) is greater.

It is impossible to tell from the information given.

Correct answer:

(b) is greater.

Explanation:

The cube with the greater sidelength has the greater volume, so we need only calculate and compare sidelengths.

(a) , so the sidelength of the first cube can be found as follows:

 inches

(b)  by an extension of the Pythagorean Theorem, so the sidelength of the second cube can be found as follows:

Since . The second cube has the greater sidelength and, subsequently, the greater volume. This makes (b) greater.

Example Question #1 : How To Find The Volume Of A Cube

Cube 2 has twice the sidelength of Cube 1; Cube 3 has twice the sidelength of Cube 2; Cube 4 has twice the sidelength of Cube 3.

Which is the greater quantity?

(a) The mean of the volumes of Cube 1 and Cube 4

(b) The mean of the volumes of Cube 2 and Cube 3

Possible Answers:

It cannot be determined from the information given.

(a) is greater.

(a) and (b) are equal.

(b) is greater.

Correct answer:

(a) is greater.

Explanation:

The sidelengths of Cubes 1, 2, 3, and 4 can be given values , respectively.

Then the volumes of the cubes are as follows:

Cube 1: 

Cube 2: 

Cube 3: 

Cube 4: 

In both answer choices ask for a mean, so we can determine which answer (mean) is greater simply by comparing the sums of volumes.

(a) The sum of the volumes of Cubes 1 and 4 is .

(b) The sum of the volumes of Cubes 2 and 3 is .

Regardless of , the sum of the volumes of Cubes 1 and 4 is greater, and therefore, so is their mean.

Example Question #2 : Cubes

What is the volume of a cube with side length  ? Round your answer to the nearest hundredth.

Possible Answers:

 

 

 

 

 

Correct answer:

 

Explanation:

This question is relatively straightforward. The equation for the volume of a cube is:

(It is like doing the area of a square, then adding another dimension!)

Now, for our data, we merely need to "plug and chug:"

Example Question #3 : How To Find The Volume Of A Cube

What is the volume of a cube on which one face has a diagonal of  ?

Possible Answers:

 

 

  

 

 

Correct answer:

  

Explanation:

One of the faces of the cube could be drawn like this:

 

Squarediagonal-2

Notice that this makes a  triangle.

This means that we can create a proportion for the sides. On the standard triangle, the non-hypotenuse sides are both , and the hypotenuse is .  This will allow us to make the proportion:

Multiplying both sides by , you get:

Recall that the formula for the volume of a cube is:

Therefore, we can compute the volume using the side found above:

Now, rationalize the denominator:

Example Question #1 : How To Find The Surface Area Of A Cube

The volume of a cube is 343 cubic inches. Give its surface area.

Possible Answers:

Correct answer:

Explanation:

The volume of a cube is defined by the formula

where  is the length of one side.

If , then 

and 

So one side measures 7 inches. 

The surface area of a cube is defined by the formula

 , so

The surface area is 294 square inches.

Example Question #5 : Cubes

What is the surface area of a cube with side length  ?

Possible Answers:

 

 

 

 

 

Correct answer:

 

Explanation:

Recall that the formula for the surface area of a cube is:

, where  is the length of a side of the cube. This equation is easy to memorize because it is merely a multiplication of a single side () by  because a cube has  equal sides.

For our data, we know that ; therefore, our equation is:

Example Question #3 : How To Find The Surface Area Of A Cube

What is the surface area of a cube with a volume  ?

Possible Answers:

 

 

 

 

 

Correct answer:

 

Explanation:

To solve this, first calculate the side length based on the volume given. Recall that the equation for the volume of a cube is:

, where  is the side length.

For our data, this gives us:

Taking the cube-root of both sides, we get:

Now, use the surface area formula to compute the total surface area:

, where  is the length of a side of the cube. This equation is easy to memorize because it is merely a multiplication of a single side () by  because a cube has  equal sides.

For our data, this gives us:

Example Question #12 : Solid Geometry

What is the surface area of a cube with a volume  ?

Possible Answers:

 

 

 

 

 

Correct answer:

 

Explanation:

To solve this, first calculate the side length based on the volume given. Recall that the equation for the volume of a cube is:

, where  is the side length.

For our data, this gives us:

Taking the cube-root of both sides, we get:

(You will need to use a calculator for this.  If your calculator gives you something like  . . . it is okay to round. This is just the nature of taking roots!).

Now, use the surface area formula to compute the total surface area:

, where  is the length of a side of the cube. This equation is easy to memorize because it is merely a multiplication of a single side () by  because a cube has  equal sides.

For our data, this gives us:

Example Question #5 : How To Find The Surface Area Of A Cube

What is the surface area for a cube with a diagonal length of  ?

Possible Answers:

Correct answer:

Explanation:

Now, this could look like a difficult problem; however, think of the equation for finding the length of the diagonal of a cube. It is like the Pythagorean Theorem, just adding an additional dimension:

(It is very easy, because the three lengths are all the same: ).

So, we know this, then:

To solve, you can factor out an  from the root on the right side of the equation:

Just by looking at this, you can tell that the answer is:

Now, use the surface area formula to compute the total surface area:

, where  is the length of a side of the cube. This equation is easy to memorize because it is merely a multiplication of a single side () by  because a cube has  equal sides.

For our data, this is:

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