All SAT Math Resources
Example Questions
Example Question #1 : Cones
There is a large cone with a radius of 4 meters and height of 18 meters. You can fill the cone with water at a rate of 3 cubic meters every 25 seconds. How long will it take you to fill the cone?
First we will calculate the volume of the cone
Next we will determine the time it will take to fill that volume
We will then convert that into minutes
Example Question #3 : How To Find The Volume Of A Cone
Find the volume of a cone with a radius of and a height of .
Write the formula to find the volume of a cone.
Substitute the known values and simplify.
Example Question #1 : How To Find The Volume Of A Cone
Find the volume of a cone with radius 3 and height 5.
To solve, simply use the formula for the volume of a cone. Thus,
To remember the formula for volume of a cone, it helps to break it up into it's base and height. The base is a circle and the height is just h. Now, just multiplying those two together would give you the formula of a cylinder (see problem 3 in this set). So, our formula is going to have to be just a portion of that. Similarly to volume of a pyramid, that fraction is one third.
Example Question #1 : How To Find The Volume Of A Cone
Find the area of a cone whose radius is 4 and height is 3.
To solve, simply use the formula for the area of a cone. Thus,
Example Question #4 : How To Find The Volume Of A Cone
The volume of a right circular cone is . If the cone's height is equal to its radius, what is the radius of the cone?
The volume of a right circular cone with radius and height is given by:
Since the height of this cone is equal to its radius, we can say:
Now, we can substitute our given volume into the equation and solve for our radius.
Example Question #1 : How To Find The Volume Of A Cone
The above is a right circular cone. Give its volume.
The volume of a right circular cone can be calculated from its height and the radius of its base using the formula
.
We are given , but not .
, , and the slant height of a right circular cone are related by the Pythagorean Theorem:
Setting and , substitute and solve for :
Taking the square root of both sides and simplifying the radical:
Now, substitute for and and evaluate:
Example Question #182 : Solid Geometry
The above is a right circular cone. Give its volume.
The volume of a right circular cone can be calculated from its height and the radius of its base using the formula
.
and , so substitute and evaluate:
Example Question #183 : Solid Geometry
In terms of , express the volume of the above right circular cone.
The volume of a cone can be calculated from its height and the radius of its base using the formula
The slant height is shown in the diagram to be 24. By the Pythagorean Theorem,
Setting and solving for :
Substituting in the volume formula for :
.
Example Question #181 : Solid Geometry
In terms of , express the volume of the provided right circular cone.
The volume of a cone can be calculated from its height and the radius of its base using the formula
The height of the cone is shown to be equal to 20, so substituting accordingly: