Welcome to the unit circle calculator ⭕. Our tool will help you determine the coordinates of any point on the unit circle. Just enter the angle ∡, and we'll show you sine and cosine of your angle. If you're not sure what a unit circle is, scroll down and you'll find the answer. The unit circle chart and an explanation on how to find unit circle tangent, sine, and cosine are also here, so don't wait any longer - read on in this fundamental trigonometry calculator!
A unit circle is a circle with a radius of 1 (unit radius). In most cases, it is centered at the point (0,0)(0,0)(0,0), the origin of the coordinate system. Unit circle is a really helpful concept when learning about trigonometry and angle conversion. Now that you know what a unit circle is, let's proceed to the relations in the unit circle.
OK, so why is the unit circle so useful in trigonometry? TL;DR
Standard explanation: Let's take any point A on the unit circle's circumference.
sin(α)=oppostiehypotenuse=y1=y\sin(\alpha)=\frac{\mathrm{oppostie}}{\mathrm{hypotenuse}} = \frac{y}{1} = ysin(α)=hypotenuseoppostie=1y=y So, in other words, sine is the y-coordinate: cos(α)=adjacenthypotenuse=x1=x\cos(\alpha) = \frac{\mathrm{adjacent}}{\mathrm{hypotenuse}} = \frac{x}{1} = xcos(α)=hypotenuseadjacent=1x=x And cosine is the x-coordinate. The equation of the unit circle, coming directly from the Pythagorean theorem, looks as follows: x2+y2=1x^2+y^2=1x2+y2=1 sin2(α)+cos2(α)=1\sin^2(\alpha) + \cos^2(\alpha) = 1sin2(α)+cos2(α)=1 🙋 For an in-depth analysis we created the tangent calculator! This intimate connection between trigonometry and triangles can't be more surprising! Find more about those important concepts at Omni's right triangle calculator.
You can find the unit circle tangent value directly if you remember the tangent definition: The ratio of the opposite and adjacent sides to an angle in a right-angled triangle. tanα=oppositeadjacetn\tan{\alpha} = \frac{\mathrm{opposite}}{\mathrm{adjacetn}}tanα=adjacetnopposite As we learned from sin(α)=y\sin(\alpha) = ysin(α)=y and cos(α)=x\cos(\alpha) = xcos(α)=x, so: ,tan(α)=yx\tan(\alpha) = \frac{y}{x}tan(α)=xy We can also define the tangent of the angle as its sine divided by its cosine: tan(α)=sin(α)cos(α)=yx\tan(\alpha) = \frac{\sin(\alpha)}{\cos(\alpha)} = \frac{y}{x}tan(α)=cos(α)sin(α)=xy Which of course will give us the same result. Another method is using our unit circle calculator, of course. 😁 But what if you're not satisfied with just this value, and you'd like to actually to see that tangent value on your unit circle? It is a bit more tricky than determining sine and cosine - which are simply the coordinates. There are two ways to show unit circle tangent: Method 1:
Method 2:
In both methods we've created right triangles with their adjacent side equal to 1 😎 Sine, cosine and tangent are not the only functions you can construct on the unit circle. Apart from the tangent cofunction - cotangent - you can also present other less known functions, e.g., secant, cosecant, and archaic versine: Graphic by Steven G. Johnson at English Wikipedia, .
The unit circle concept is very important because you can use it to the find sine and cosine of any angle. We present some commonly encountered angles in the unit circle chart below: As an example - how to determine sin(150°)\sin(150\degree)sin(150°)?
sin(150°)=12\sin(150\degree) = \frac{1}{2}sin(150°)=21 Alternatively, enter the angle 150° to our unit circle calculator. We'll show you the sin(150°)\sin(150\degree)sin(150°) value your y-coordinate, as well as the cosine, tangent, and unit circle chart.
Well, it depends what you want to memorize 🙃 There are two things to remember when it comes to the unit circle:
Let's start with the easier first part. The most important angles are those that you'll use all the time:
As these angles are very common, try to learn them by heart ❤️. For any other angle, you can use the formula for angle conversion: α [rad]=π180°×α [deg]\alpha\ [\mathrm{rad}] = \frac{\pi}{180\degree}\times \alpha\ [\mathrm{deg}]α [rad]=180°π×α [deg] Conversion of the unit circle's radians to degrees shouldn't be a problem anymore! 💪 The other part - remembering the whole unit circle chart, with sine and cosine values - is a slightly longer process. We won't describe it here, but feel free to check out or this . If you prefer watching videos 🖥️ to reading 📘, watch one of these two videos explaining how to memorize the unit circle:
Also, this table with commonly used angles might come in handy: And if any methods fail, feel free to use our unit circle calculator - it's here for you, forever ❤️ Hopefully, playing with the tool will help you understand and memorize the unit circle values! |