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Example Questions
Example Question #1 : Area Of A Parallelogram
What is the area of the parallelogram?
The area of a parallelogram is determined using the equation:
In this problem:
Example Question #2 : Area Of A Parallelogram
Refer to the above figure, which shows Parallelogram . You are given that and .
If you know the length of , then, of the following segments, choose the one whose length, if known, will allow us to calculate the area of Parallelogram .
The area of a parallelogram is the product of the length of any one side, or its base, and the perpendicular distance to the opposite side, or its height. If we know , then we also know , which is of the same length. We can take to be the base, and the segement perpendicular to it, , as the altitude. Therefore, is the segment whose length we need to know.
Example Question #1 : Area Of A Parallelogram
Note: Figure NOT drawn to scale.
Refer to the above figure, which shows Parallelogram . You are given that and .
, . .
Evaluate .
The area of a parallelogram is the product of the length of any one side, or its base, and the length of a segment perpendicular to that side, or its height.
One way to find the area is to multiply the length of side by its corresponding altitude, . Since and ,
.
Another way to find the area is to multiply the length of side by its corresponding altitude, . Since and the area is 9,600, we set up this equation and solve for :
Example Question #2 : Area Of A Parallelogram
A parallelogram has the base length of and the altitude of . Give the area of the parallelogram.
The area of a parallelogram is given by:
Where is the base length and is the corresponding altitude. So we can write:
Example Question #2 : Area Of A Parallelogram
A parallelogram has a base length of which is 3 times longer than its corresponding altitude. The area of the parallelogram is 12 square inches. Give the .
Base length is so the corresponding altitude is .
The area of a parallelogram is given by:
Where:
is the length of any base
is the corresponding altitude
So we can write:
Example Question #4 : Area Of A Parallelogram
The length of the shorter diagonal of a rhombus is 40% that of the longer diagonal. The area of the rhombus is . Give the length of the longer diagonal in terms of .
Let be the length of the longer diagonal. Then the shorter diagonal has length 40% of this. Since 40% is equal to , 40% of is equal to .
The area of a rhombus is half the product of the lengths of its diagonals, so we can set up, and solve for , in the equation:
Example Question #4 : Area Of A Parallelogram
The length of the shorter diagonal of a rhombus is two-thirds that of the longer diagonal. The area of the rhombus is square yards. Give the length of the longer diagonal, in inches, in terms of .
Let be the length of the longer diagonal in yards. Then the shorter diagonal has length two-thirds of this, or .
The area of a rhombus is half the product of the lengths of its diagonals, so we can set up the following equation and solve for :
To convert yards to inches, multiply by 36:
Example Question #2 : Area Of A Parallelogram
The longer diagonal of a rhombus is 20% longer than the shorter diagonal; the rhombus has area . Give the length of the shorter diagonal in terms of .
Let be the length of the shorter diagonal. If the longer diagonal is 20% longer, then it measures 120% of the length of the shorter diagonal; this is
of , or .
The area of a rhombus is half the product of the lengths of its diagonals, so we can set up an equation and solve for :
Example Question #2 : Area Of A Parallelogram
Find the area:
The area of a parallelogram can be determined using the following equation:
Therefore,
Example Question #3 : Area Of A Parallelogram
Find the area of a parallelogram with a base of length 8 and a height of length 6.
The area of a parallelogram is
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