GMAT Math : GMAT Quantitative Reasoning

Study concepts, example questions & explanations for GMAT Math

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Example Questions

Example Question #721 : Problem Solving Questions

The height of one of the equilateral triangle faces on a tetrahedron is  .  What is the side length of the tetrahedron?

Possible Answers:

Correct answer:

Explanation:

Because a tetrahedron has four congruent equilateral triangles as its faces, we know the three equal angles of each face, as with all equilateral triangles, are each  .  We are given the height of a face, which is the length of a line that bisects one of the    angles and forms a right triangle with the side length as its hypotenuse. This means the angle between the height and the side length is  ,  whose cosine is equal to the adjacent side, the height, over the hypotenuse, the side length. This gives us:

Example Question #1 : Rectangular Solids & Cylinders

The volume of a tetrahedron is . What is the edge of the tetrahedron?

Possible Answers:

Correct answer:

Explanation:

Write the formula to solve for the edge of a tetrahedron.

Substitute the given volume to the equation and solve.

Example Question #2 : Tetrahedrons

Find the exact edge length of a tetrahedron if the volume is .

Possible Answers:

Correct answer:

Explanation:

Write the tetrahedron formula to solve for the edge.

Substitute the volume and simplify.

Example Question #1 : Tetrahedrons

A certain tetrahedron has a surface area of  .  What is the length of an edge of the tetrahedron?

Possible Answers:

Correct answer:

Explanation:

A tetrahedron has four congruent equilateral triangle faces, so its surface area is four times the area of one of these equilateral triangles. This gives us:

Where    is the base of the triangle, or the edge length of the tetrahedron, and    is the height of each triangular face. We want to solve for  ,  but we are only given the surface area and not the height, so we need to express this value in terms of the base. One way of doing this is by recognizing that the height of each equilateral triangle face bisects an angle and forms two congruent right triangles for which it is the base and the edge length, or  ,  is the hypotenuse. Each angle in an equilateral triangle is  ,  so if one is bisected by the height then the angle between it and the hypotenuse is  .  The cosine of this angle is equal to the height over the hypotenuse, which gives us:

Now that we have an expression for the height in terms of the base, we can plug this value into the equation for surface area and be left with only one unknown, the base that is equivalent to the edge length for which we want to solve:

Example Question #1 : Rectangular Solids & Cylinders

A right triangular pyramid has as its base an equilateral triangle with sidelength 10. Its height is 15. 

Give its volume.

Possible Answers:

Correct answer:

Explanation:

The base of the triangle has an area that can be found using the formula for the area of an equilateral triangle, substituting :

 

Now, in the formula for the volume of a pyramid, substitute :

Example Question #2 : Rectangular Solids & Cylinders

The height of a right pyramid and the sidelength of its square base are equal. The perimeter of the base is one yard. Give its volume in cubic inches.

Possible Answers:

Correct answer:

Explanation:

The perimeter of the base is one yard, or 36 inches; its sidelength - and, sunsequently, its height - are one-fourth of that, or 9 inches, and the area of the base is  square inches. The volume of a pyramid is one-third the product of its height and the area of its base, so substitute  in the following:

 cubic inches.

Example Question #1 : Calculating The Volume Of A Tetrahedron

In three-dimensional space, the four vertices of a tetrahedron - a solid with four faces - have Cartesian coordinates .

Give its volume.

Possible Answers:

Correct answer:

Explanation:

A tetrahedron is a triangular pyramid and can be looked at as such.

Three of the vertices -  - are on the -plane, and can be seen as the vertices of the triangular base. This triangle, as seen below, is isosceles:

Base

Its base is 60 and its height is 40, so its area is

The fourth vertex is off the -plane; its perpendicular distance to the aforementioned face is its -coordinate, 20, so this is the height of the pyramid. The volume of the pyramid is 

.

Example Question #2 : Calculating The Volume Of A Tetrahedron

In three-dimensional space, the four vertices of a tetrahedron - a solid with four faces - have Cartesian coordinates

where 

Give its volume in terms of .

Possible Answers:

Correct answer:

Explanation:

The tetrahedron looks like this:

Tetrahedron

 is the origin and  are the other three points, whose distances away from the origin on each of the three (perpendicular) axes are shown.

This is a triangular pyramid, and we can consider  the (right triangular) base; its area is half the product of its legs, or

.

The volume of the tetrahedron is one third the product of its base and its height, the latter of which is . Therefore,

.

Example Question #3 : Calculating The Volume Of A Tetrahedron

In three-dimensional space, the four vertices of a tetrahedron - a solid with four faces - have Cartesian coordinates .

What is the volume of this tetrahedron?

Possible Answers:

Correct answer:

Explanation:

The tetrahedron looks like this:

Tetrahedron

 is the origin and  are the other three points, which are 60 units away from the origin on each of the three (mutually perpendicular) axes.

This is a triangular pyramid, and we can consider  the (right triangular) base; its area is half the product of its legs, or

.

The volume of the tetrahedron is one third the product of its base and its height, the latter of which is 60. Therefore,

.

Example Question #3 : Calculating The Volume Of A Tetrahedron

What is the volume of a right pyramid whose height is 20 and whose base is an equilateral triangle with sidelength 10?

Possible Answers:

Correct answer:

Explanation:

The volume of a pyramid can be calculated using the formula

where  is the height and  is the area of the base. 

Since the base is an equilateral triangle, its area can be calculated using the formula

Therefore, the volume can be rewritten as 

Substitute :

 

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