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Isosceles triangle Right triangle Area of a square Area of a rectangleHere you will learn about how to find the area of isosceles triangles, including what formula to use and why it works.
Students will first learn about the area of isosceles triangles as part of geometry in 6 th grade.
The area of an isosceles triangle is the amount of the space inside an isosceles triangle.
An isosceles triangle is a type of triangle with two equal sides. The base angles, which are opposite to the sides of equal length, are also two equal angles. It always has one unequal side and angle.
In order to find the area of isosceles triangles, start with the area of a rectangle.
The area of the rectangle is calculated by multiplying the \text {base } \times \text { height}.
Within a rectangle, there is an isosceles triangle. It can be shown by drawing lines from a midpoint of the rectangle to the opposite vertices.
Creating the isosceles triangle (in pink) also creates two congruent right triangles (in green).
If you rotate the two right triangles and place them back to back, they form an isosceles triangle that is the same area as the pink isosceles triangle.
The area of the rectangle is the same as two congruent isosceles triangles. This means the area of each isosceles triangle is exactly half the area of the rectangle.
Use this quiz to check your grade 4 to 6 students’ understanding of area. 15+ questions with answers covering a range of 4th, 5th and 6th grade area topics to identify areas of strength and support!
DOWNLOAD FREEUse this quiz to check your grade 4 to 6 students’ understanding of area. 15+ questions with answers covering a range of 4th, 5th and 6th grade area topics to identify areas of strength and support!
DOWNLOAD FREEThe general formula to find the area of any triangle is:
\text {Area of a triangle }=\cfrac{\text { base } \times \text { height }}{2}
This can also be written as the following formula:
A=\cfrac{1}{2} \, b h
where b is the base length and h is the height of the triangle.
The space inside of shapes is measured in square units, so the final answer must be given in \text {units}^2 . For example, \, \mathrm{cm}^2, \mathrm{~m}^2, or \mathrm{~mm}^2.
For example,
What is the area of the isosceles triangle?
A=\cfrac{1}{2} \, b h
The base is 10 and the height is 12 .
A few things to note:
\begin{aligned} & A=\cfrac{1}{2} \, \times10 \times 12 \\\\ & A=5 \times 12 \\\\ & A=60 \end{aligned}
The area of the isosceles triangle is 60 {~cm}^2.
How does this relate to 6 th grade math?
In order to find the area of isosceles triangles:
Find the area of the triangle below:
b = 6 {~cm}
h = 10 {~cm}
2Write the area formula.
A=\cfrac{1}{2} \, b h
3Substitute known values into the area formula.
\begin{aligned}A &=\cfrac{1}{2} \, b h \\\\ &=\cfrac{1}{2} \, (6)(10) \end{aligned}
4Solve the equation.
\begin{aligned}A &=\cfrac{1}{2} \, b h \\\\ &=\cfrac{1}{2} \, (6)(10) \\\\ &=30 \end{aligned}
5Write the answer, including the units.
A=30 \mathrm{~cm}^2
Remember: Your final answer must be in square units.
Calculate the area of the triangle below:
Identify the base and perpendicular height of the triangle.
Rotating the triangle makes it easier to identify the base and height.
b = 4 {~m}
h = 120 {~cm}
Notice there are 2 different units here. You must convert them to a common unit:
120 {~cm} = 1.2 {~m}
b = 4 {~m}
h = 1.2 {~m}
Write the area formula.
A=\cfrac{1}{2} \, b h
Substitute known values into the area formula.
\begin{aligned} A &=\cfrac{1}{2} \, b h \\\\ &=\cfrac{1}{2} \, (4)(1.2) \end{aligned}
Solve the equation.
\begin{aligned} A &=\cfrac{1}{2} \, b h \\\\ &=\cfrac{1}{2} \, (4)(1.2)\\\\ &=2.4 \end{aligned}
Write the answer, including the units.
A=2.4 {~m}^2
Shown below is a triangular shaped field. Each cow needs 2,000 \mathrm{~m}^2 to graze. How many cows can fit into this field?
Identify the base and perpendicular height of the triangle.
b = 312 {~m}
h = 137.6 {~m}
Note: The 208 {~m} is not needed to solve this question. It is extra information.
Write the area formula.
A=\cfrac{1}{2} \, b h
Substitute known values into the area formula.
\begin{aligned} A & =\cfrac{1}{2} \, b h \\\\ & =\cfrac{1}{2} \, (312)(137.6) \end{aligned}
Solve the equation.
\begin{aligned} A & =\cfrac{1}{2} \, b h \\\\ & =\cfrac{1}{2} \, (312)(137.6) \\\\ & =21,465.6 \end{aligned}
Write the answer, including the units.
A=21,465.6 \mathrm{~m}^2
Now to calculate how many cattle will fit into the field, take 21,465.6\mathrm{~m}^2 and divide it by 2,000\mathrm{~m}^2 , because each cattle needs that much space to graze on the field.
21,465.6 \div 2,000=10.7328
The quotient has 10 wholes and 7,328 ten-thousandths. There cannot be part of a cow and 10.7328 is not enough for 11 cows. So, 10 cows will fit in the field.
Find the area of the triangle below:
Identify the base and perpendicular height of the triangle.
Since one half of the base is 2 {~cm} , the other half is 2 {~cm} as well and 2 + 2 = 4.
b = 4 {~cm}
h = 6.71 {~cm}
Write the area formula.
A=\cfrac{1}{2} \, b h
Substitute known values into the area formula.
\begin{aligned} A &=\cfrac{1}{2} \, b h \\\\ &=\cfrac{1}{2} \, (4)(6.71) \end{aligned}
Solve the equation.
\begin{aligned} A &=\cfrac{1}{2} \, b h \\\\ &=\cfrac{1}{2} \, (4)(6.71)\\\\ &=13.42 \end{aligned}
Write the answer, including the units.
A=13.42 \mathrm{~cm}^2
Below is the floor plan for a new house. Calculate the area of the plan.
Identify the base and perpendicular height of the triangle.
Split the plan into 2 shapes; a square and an isosceles triangle.
For the triangle:
b = 8 {~m}
h = 11 {~m}
Write the area formula.
A=\cfrac{1}{2} \, b h
Substitute known values into the area formula.
\begin{aligned} A &=\cfrac{1}{2} \, b h \\\\ &=\cfrac{1}{2} \, (8)(11) \end{aligned}
Solve the equation.
\begin{aligned} A &=\cfrac{1}{2} \, b h \\\\ &=\cfrac{1}{2} \, (8)(11)\\\\ &=44 \end{aligned}
Now find the area of the square.
\begin{aligned} & A=s^2 \\\\ & A=8^2 \\\\ & A=64 \end{aligned}
Write the answer, including the units.
The total area of the compound shape is 44+64=108 {~m}^2.
Triangle ABC is an isosceles triangle with an area of 18 {~cm}^2 . The height of the triangle is 6 {~cm} . Find the length of the base of the triangle.
Identify the base and perpendicular height of the triangle.
\begin{aligned} & A=18 \mathrm{~cm}^2 \\\\ & b=? \\\\ & h=6 \mathrm{~cm} \end{aligned}
Write the area formula.
A=\cfrac{1}{2} \, b h
Substitute known values into the area formula.
\begin{aligned} & A=\cfrac{1}{2} \, b h \\\\ & 18=\cfrac{1}{2} \times b \times 6 \\\\ & 18=\cfrac{1}{2} \times 6 \times b \\\\ & 18=3 \times b \end{aligned}
Solve the equation.
18=3 \times b
To solve, find what times 3 is equal to 18. Since 3 \times 6=18 , the base is 6.
Write the answer, including the units.
b=6 \mathrm{~cm}
The units are not squared, because the base is the length of the bottom of the triangle (one-dimensional), not the square units within the triangle (two-dimensional).
1. Find the area of the triangle below:
The area of a triangle is calculated with the formula: A=\cfrac{1}{2} \, b h.
For this triangle:
b = 15 {~cm}
h = 6 {~cm}
Substitute the values into the formula.
\begin{aligned} A & =\cfrac{1}{2} \, b h \\\\ & =\cfrac{1}{2} \, (15)(6) \\\\ & =45 \mathrm{~cm}^2 \end{aligned}
2. Find the area of the triangle below giving your answer in cm^2 :
The area of a triangle is calculated with the formula: A=\cfrac{1}{2} \, b h.
Rotating the triangle makes it easier to identify the base and height.
For this triangle:
b = 300 {~cm}
h = 1.5 {~m}
Since the measurements are in different units (m and cm), they need to be converted to the same unit: 1.5 {~m} = 150 {~cm}.
b = 300 {~cm}
h = 150 {~cm}
Note: 200 \, cm is not needed to solve this question. It is extra information.
Substitute the values into the formula.
\begin{aligned} A & =\cfrac{1}{2} \, b h \\\\ & =\cfrac{1}{2} \, (300)(150) \\\\ & =22,500 \mathrm{~cm}^2 \end{aligned}
3. Shown below is a triangular shaped chicken enclosure cage. Each chicken needs 8 {~m}^2 to roam around. How many chickens can fit into this cage?
8 chickens
11 chickens
66 chickens
9 chickens
The area of a triangle is calculated with the formula: A=\cfrac{1}{2} \, b h.
This is an isosceles right triangle, so the base and the height are equal to each other.
For this triangle:
b = 11.5 {~m}
h = 11.5 {~m}
Note: The 16 {~m} is not needed to solve this question. It is extra information.
\begin{aligned} A & =\cfrac{1}{2} \, b h \\\\ & =\cfrac{1}{2} \, (11.5)(11.5) \\\\ & =66.125 m^2 \end{aligned}
Now to calculate how many chickens will fit into the field, take 66.125 {~m}^2 and divide it by 8 {~m}^2 because each chicken needs that much space to graze on the field.
66.125 \div 8=8.2656
The quotient has 8 wholes and 2,656 ten-thousandths. There cannot be part of a chicken and 8.2656 is not enough for 9 chickens. So, 8 chickens will fit in the field.
4. Find the area of the triangle below. Round to the nearest hundredth.
The area of a triangle is calculated with the formula: A=\cfrac{1}{2} \, b h.
Remember, the height and base are always perpendicular to each other.
b = 3{~cm}
h = 5.81{~cm}
Note: The 6 {~cm} is not needed to solve this question. It is extra information.
\begin{aligned} A & =\cfrac{1}{2} \, b h \\\\ & =\cfrac{1}{2} \, (3)(5.81) \\\\ & =8.715 \mathrm{~cm}^2 \end{aligned}
8.715c{~cm}^2 rounded to the nearest hundredth is 8.72 {~cm}^2.
5. Find the area of the shaded region below. Round to the nearest tenth.
The shape can be split into a rectangle and a triangle. The opposite sides of the rectangle are congruent.
The area of the rectangle is 3 \times 4 = 12 {~m}^{2}
The area of the triangle is \cfrac{1}{2} \, \times 3 \times 4.2 = 6.3 {~m}^{2}
The total area is 12 + 6.3 = 18.3 {~m}^{2}
6. Triangle MNP is an isosceles triangle with an area of 20 {~cm}^2 . The base length of the triangle is 4 {~cm} . Find the height of the triangle.
The area of a triangle is calculated with the formula: A=\cfrac{1}{2} \, b h.
\begin{aligned} & A=20 \mathrm{~cm}^2 \\\\ & b=? \\\\ & h=4 \mathrm{~cm} \end{aligned}
\begin{aligned} & A=\cfrac{1}{2} \, b h \\\\ & 20=\cfrac{1}{2} \,\times b \times 4 \\\\ & 20=\cfrac{1}{2} \, \times 4 \times b \\\\ & 20=2 \times b \end{aligned}
To solve, find what times 2 is equal to 20 . Since 2 \times 10=20 , the base is 10 .
The base is considered the side adjacent to the two congruent sides. However, to find the area any side of the triangle can be used as the base. In order to be used as the base measurement, the height measurement should go directly up from the base, forming a 90 degree angle.
To find the perimeter, add up all three sides of an isosceles triangle.
The pythagorean theorem explains a relationship between the sides of all right triangles. It is used in trigonometry to find a missing third side measurement.
The hypotenuse is the longest side of a right triangle. It is opposite of the vertex angle measuring 90 degrees.
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