Welcome to Mindspark

Please Enter Your Mobile Number to proceed

Get important information on WhatsApp
By proceeding, you agree to our Terms of Use and Privacy Policy.

Please Enter Your OTP

Resend OTP after 2:00 Minutes.

Cos 90 Degrees: Value of cos 90 with Proof, Examples and FAQ

 

Cos 90 Degrees

In a right-angled triangle, the cosine function of an angle is the ratio of the length of the adjacent side and the hypotenuse side (of angle θ).

In this article, we will discuss the cosine of angle 90 degrees value, which is equal to zero. We will also derive this value using the quadrants of a unit circle.

\cos \left(90^{\circ}\right)=\cos \pi / 2=0

Proof of  Cos 90 Degrees

Now let us calculate the value of cos 90 using a unit circle that has its centre at the origin of the coordinate axes ‘x’ and ‘y’. 

Let P (a, b) be a point on the circle’s circumference that forms an angle POA = x radian. It means that the length of the arc PA is equal to x. From this, we define the value of sin x = PM/OP = b and cos x = OM/OP = a.

Consider a right-angled triangle OMP in the given unit circle.

Using the Pythagoras theorem,

\mathrm{OM}^{2}+\mathrm{MP}^{2}=\mathrm{OP}^{2}
\Rightarrow \mathrm{a}^{2}+\mathrm{b}^{2}=1

It tells that every point on the unit circle is defined as,

a^{2}+b^{2}=1
\Rightarrow \cos ^{2} x+\sin ^{2} x=1(\text { Since } \sin x=b \text { and } \cos x=a)

Remember that one complete revolution subtends an angle of 2π radian at the centre of the circle, and from the unit circle – 

\angle \mathrm{AOB}=\pi / 2,
\angle \mathrm{AOC}=\pi,
\angle \mathrm{AOD}=3 \pi / 2 .

The coordinates of the points A, B, C and D will be (1, 0), (0, 1), (–1, 0) and (0, –1), respectively. 

Now for the ∠AOB = π/2, we will take the coordinates of point B, which is (0, 1).

This means, for the ∠AOB = π/2, a = 0 and b = 1

Since cos x = a, 

So, cos π/2 = cos 90° = 0

Therefore, the value of the cosine of angle 90 degrees is 0.

Trigonometric Method

We can derive the value of cosine of 90 degrees using sin 90 value using the below formula:

\cos ^{2} x=1-\sin ^{2} x

Putting x = 90°

\cos ^{2} 90^{\circ}=1-\sin ^{2} 90^{\circ}

The value of sin 90 is 1.

\text { So, } \cos ^{2} 90^{\circ}=1-(1)^{2}

\cos ^{2} 90^{\circ}=1-1
\cos ^{2} 90^{\circ}=0
\cos \left(90^{\circ}\right)=0

 

Examples

1. Evaluate: cos 90° + sin 0°

We know that cos (90°) = sin (0°) = 0
So, cos (90°) + sin (0°)
= 0 + 0
= 0

 

2. Evaluate: 2cos 90° + 3sin 90°

We know that cos (90°) = sin (0°) = 0
and sin (90°) = cos (0°) = 1
So, 2cos (90°) + 3sin (90°)
= (2 x 0) + (3 x 1)
= 0 + 3
= 3 

Ready to get started ?

Frequently Asked Questions 

    Q1. How can you evaluate the value of the cosine of angle 90°?

    Ans: We can use a unit circle that has its centre at the origin of the coordinate axes. By considering a point on this circle, we construct a right-angled triangle. By using the Pythagoras theorem and simplifying it, we can see that all the triangle angles are the integral multiples of π/2. By taking the coordinate of angle π/2, we can prove that cos (90°) = 0.

    Q2. The value of cos 90° is equal to which value of sin?

    Ans: To find the sine values in the trigonometry table, use the opposite order of the cosine function values. It means cos (90°) = sin 0°

    Q3. How will we write cos 90° in radians?

    Ans: 180° = π  radians

    So, 180°/2 = 90° = π/2 radians

    Therefore, cos (90°) = cos π/2 radians.