Sum and Difference of Angles: Identifying and defining elements

Angle bisectorApplying the formulaCalculate Angles in QuadrilateralsFinding the size of angles in a triangleGenerate a random angleIdentify the greater valueIs it possible...?Isosceles triangleUsing angles in a triangleUsing quadrilateralsUsing variables
Question 1

Angle A equals 56°.
Angle B equals 89°.
Angle C equals 17°.

Can these angles make a triangle?

Question 2

Angle A is equal to 30°.
Angle B is equal to 60°.
Angle C is equal to 90°.

Can these angles form a triangle?

Question 3

Angle A equals 90°.
Angle B equals 115°.
Angle C equals 35°.

Can these angles form a triangle?

Question 4

What is the size of each angle in an equilateral triangle?

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Question 5

Can a triangle have more than one obtuse angle?

Examples with solutions for Sum and Difference of Angles: Identifying and defining elements

Exercise #1

Angle A equals 56°.
Angle B equals 89°.
Angle C equals 17°.

Can these angles make a triangle?

Video Solution

Step-by-Step Solution

We add the three angles to see if they are equal to 180 degrees:

56+89+17=162 56+89+17=162

The sum of the given angles is not equal to 180, so they cannot form a triangle.

Answer

No.

Exercise #2

Angle A is equal to 30°.
Angle B is equal to 60°.
Angle C is equal to 90°.

Can these angles form a triangle?

Video Solution

Step-by-Step Solution

We must first add the three angles to see if they equal 180 degrees:

30+60+90=180 30+60+90=180

The sum of the angles equals 180, therefore they can form a triangle.

Answer

Yes

Exercise #3

Angle A equals 90°.
Angle B equals 115°.
Angle C equals 35°.

Can these angles form a triangle?

Video Solution

Step-by-Step Solution

We add the three angles to see if they are equal to 180 degrees:

90+115+35=240 90+115+35=240
The sum of the given angles is not equal to 180, so they cannot form a triangle.

Answer

No.

Exercise #4

What is the size of each angle in an equilateral triangle?

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Video Solution

Step-by-Step Solution

To solve this problem, we'll follow these steps:

  • Step 1: Identify that an equilateral triangle has all sides of equal length, which implies its angles are also equal.
  • Step 2: Utilize the property that the sum of angles in any triangle is 180180^\circ.
  • Step 3: Since each angle is equal in an equilateral triangle, divide the total sum of 180180^\circ by 3.

Now, let's work through each step:
Step 1: In an equilateral triangle, all angles are equal in size.
Step 2: The sum of angles in any triangle is always 180180^\circ.
Step 3: Divide 180180^\circ by 3.

Calculating 180÷3=60180^\circ \div 3 = 60^\circ.

Therefore, the size of each angle in an equilateral triangle is 6060^\circ.

Answer

60

Exercise #5

Can a triangle have more than one obtuse angle?

Video Solution

Step-by-Step Solution

If we try to draw two obtuse angles and connect them to form a triangle (i.e: only 3 sides), we will see that it is not possible.

Therefore, the answer is no.

Answer

No

Question 1

In a right triangle, the sum of the two non-right angles is...?

Question 2

What kind of triangle is shown in the diagram below?

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Exercise #6

In a right triangle, the sum of the two non-right angles is...?

Video Solution

Step-by-Step Solution

In a right-angled triangle, there is one angle that equals 90 degrees, and the other two angles sum up to 180 degrees (sum of angles in a triangle)

Therefore, the sum of the two non-right angles is 90 degrees

90+90=180 90+90=180

Answer

90 degrees

Exercise #7

What kind of triangle is shown in the diagram below?

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Video Solution

Step-by-Step Solution

We calculate the sum of the angles of the triangle:

117+53+21=191 117+53+21=191

It seems that the sum of the angles of the triangle is not equal to 180°,

Therefore, the figure can not be a triangle and the drawing is incorrect.

Answer

The triangle is incorrect.