I/D #3: Unit Q: Pythagorean Identities

Inquiry Activity Summary

1. Where does sin ^2x + cos^2x = 1 come from?

Back in Unit N, we learned about the Unit Circle. In the Unit Circle we learned that the ratio for cosine is (x/r) and the ratio of sine is(y/r). Now, we all know the Pythagorean Theorem which is a^2 + b^2 = c^2,  but with the Unit Circle it would be x^2 + y^2 = r^2, but in the Unit Circle R always equals 1 and to make this true and correct, we would divide by r^2 on both sides, leaving us with (x/r)^2 + (y/r)^2 = 1.  So we can safely say (x/r) and (y/r)  are cosine and sine.  They're squared and because they are squared, we have Pythagorean Identity. This means it cannot be "powered up"or "powered down", also because it is a Pythagorean Identity it must be squared and no power greater or less. Also because the Pythagorean Theorem is a proven fact and the formula is always true, it is called an identity. We can also prove this by demonstrating one of the "Magic 3" ordered pair from the Unit Circle (30*, 45*, 60*). We'll use 6* now theta of 60* is (1/2, radical 3/2) with 1/2 being x and radical 3/2 being Y. To prove our derivation of x^2 + y^2 = r^2 we're going to use cos^2 +sin^2 = 1, so (1/2)^2 + (radical 3/2) ^2 =1.

To derive the remaining two Pythogorean Identities we have to divide the whole thing by cos^2x to find the tangent derivation which will lead us to tan^2x + 1 = sec^2x

Now all we divide the original by sin^2x to find the cotangent derivation leading us to 1 + cot^2x = csc^2x.

Now all this information was found from page 1 of our Unit Q SSS packet, which is information we should Memorize!

Inquiry Activity Reflection

1. The connections that Iv'e seen between Units N, O, P, and Q are:

1. First the role of sine and cosine in Unit Q from the Unit Circle and its properties which can be seen in the reciprocal identities which are similar to the inverse of these trig. functions from Unit O and P. Also it helps to see how all the units are coming along together. 
2. In Unit P Concept 3 when we are using the distance formula for Law of Cosines with SSS or SAS, one of the formulas is a^2 = c^2(sin^2A + cos^2A) - 2bcCosA + b^2 and we know that cos^2A + sin^2A = 1. Helps everything make sense :D 

2. If I had to describe trigonometry in THREE words, they would be: 

challenging, tiring, and confusing.