Sine | Homework Help

Posts Tagged ‘sine’

Graphing: Sine Function

Thursday, September 17th, 2009

How to Graph the Sine Function

Description

A detailed tutorial on the solving of the graph of the sine function. Step by step tutorial including several examples of how to solve the graph of the sine function for reference.

Overview

Graphing the sine function is not difficult, but there are a few steps you need to follow. The first is, you need to find all the different points on the graph. You do this by taking a unit circle and using radians and reference points to find all of your coordinates. Then plot your points on the graph, and “connect the dots”. The graph of the sine function has points at (0, 0), (pi/2, 1), (pi, 0), (3pi/2, -1), and (2, 0). The x-coordinates are all the main points around the circle while the y-cooridnates are your reference points. The graph of the sine function should resemble a “wave” that starts at the origin and travels in curves going both up and down.

Tags: coordinates, function, graph, graphing, intercepts, Math, reference angle, sine, trig, trigonometry, unit circle, wave, x, y
Posted in Trigonometry | No Comments »

Law of Sines

Thursday, September 17th, 2009

An Introduction to the Law of Sines

Description

A detailed tutorial on the the Law of Sines and how to prove the Law of Sines. Step by step tutorial including several examples of how to solve problems with the Law of Sines for reference.

Overview

The Law of Sines is a formula that can be used when a triangle has both side and angle measures. The Law of Sines is expressed as:

$\frac{a}{\sin A} = \frac{b}{\sin B} = \frac{c}{\sin C}.$

Where a, b, and c represent the sides, and A, B, and C represent the angles that are opposite of those sides. This formula looks very similar to the Pythagorean Theorem.

Tags: angle, law of sines, Math, side, sine, sine formula, sine rule, sines law, triangle, trigonometry
Posted in Trigonometry | No Comments »

SOHCAHTOA

Friday, September 11th, 2009

How to Use SOHCAHTOA

Description

A detailed tutorial on the solving of SOHCAHTOA. Step by step tutorial including several examples of how to solve SOHCAHTOA problems for reference.

Overview

SOHCAHTOA, often spaced out to spell SOH-CAH-TOA, stands for Sine = Opposite/Hypontenuse, Cosine = Adjacent/Hypotenuse, Tangent = Opposite/Adjacent. You use it with an angle to help solve for the sine, cosine, or tangent of that angle. What Opposite, Adjacent, and Hyptonuse stand for are the sides of a triangle – the side exactly opposite your angle, the hypotenuse, and the third non-hypotenuse side that is next to your angle. Because of this, SOHCAHTOA can only be used with a right triangle. The values for opposite, adjacent, and hypotenuse are the length of the side of the triangle it stands for. It is not necessary to know the measure of the angle before using SOHCAHTOA.

Tags: adjacent, angle, cosine, Geometry, hypotenuse, length, Math, opposite, right triangle, side, sine, SOH-CAH-TOA, SOHCAHTOA, tangent, triangle, trigonometry
Posted in Geometry, Trigonometry | No Comments »

Integration by Trigonometric Substitution

Thursday, September 10th, 2009

How to Solve an Integration Problem by Trigonometric Substitution

Description

This video clearly illustrates how to solve an integration problem using trigonometric substitution. One example problem is provided in the video.

Overview

Trigonometric substitution works the same way as normal substitution, only you substitute in trigonometric functions, and each trigonometric function can only be substituted for a particular pattern. These are the patterns to watch for and what you can substitute in for them:

a^2 – x^2 uses x = a * sin(theta)

a^2 + x^2 uses x = a * tan(theta)

x^2 – a^2 uses x = a * sec(theta)

All of these also have the option of including a square root with them, but it doesn’t matter – you can use the substitution without the square root. Normally after finding the x value you will take a derivative so you have the value of dx To find other values needed,SOHCAHTOA is often used with a right triangle picture. Once all of your values have been solved for, you can plug them all back into your original equation and solve.

Tags: antiderivatives, antidifferentiation, Calculus, derivatives, differentiation, integrals, integration by substitution, Math, secant, sine, tangent, trig functions, trigonometric substitution, trigonometry
Posted in Calculus | No Comments »

Trigonometric Identities

Thursday, September 10th, 2009

Trigonometric Identities Explained

Description

This video is a review of all the important trig identities. It provides several examples of different trig identities and shows when and how you would have to use them. This video provides content in an organized manner.

Overview

Trigonometric identities, or trig identities, are equations dealing with trig functions that should be memorized. The most common trig functions are sine, cosine, and tangent. Trig identities will help you when you need to simplify equations with trigonometric functions in them. There are a few very important trig identites. Two of these are the Pythagorean trig identity and the Ratio identity.

Pythagorean Trig Identity: $\sin^2 \theta + \cos^2 \theta</strong> <strong>= 1\,$

Ratio Identity: $\tan \theta = \frac{\sin \theta}{\cos \theta}$

From the Pythagorean trig identity, another identity can be found. This is $\tan^2 \theta + 1\ = \sec^2 \theta$ . There are a few other identities, that are not so much trig identities as factoring for trigonometric functions.

sin(a + b) = [sin(a) * cos(b)] + [sin(b) * cos(a)]

cos(a + b) = [cos(a) * cos(b)] – [sin(a) * sin(b)]

sin(2a) = 2 * sin(a) * cos(a)

cos(2a) = [cos(a)]^2 – [sin(a)]^2

There are many more trig identities, but these are the most important. With these, you will be able to find almost every other trig identity.

Tags: cosine, Math, pythagorean, pythagorean trig identity, ratio identity, sine, tangent, trig, trig identities, trigonometric equations, trigonometric function, trigonometric identities, trigonometry
Posted in Trigonometry | No Comments »

Derivatives – Trigonometric Functions

Friday, September 4th, 2009

How to Solve Derivatives with Trigonometric Functions

Description

This video shows the basic trigonometric functions and their derivatives. Content is laid out in an organized and easy to follow manner.

Overview

Trigonometric functions, also known as just trig functions, are very common – they are sine, cosine, tangent, secant, cotangent, cosecant. These are derivatives that you should have memorized, because there is no good way to solve for them.

d/dx sin(x) = cos(x)

d/dx cos(x) = -sin(x)

d/dx tan(x) = sec^2(x)

d/dx sec(x) = sec(x) * tan(x)

d/dx csc(x) = -csc(x) * cot(x)

d/dx cot(x) = -csc^2(x)

Tags: Calculus, cosecant, cosine, cotangent, derivative, derivatives, differentiation, Math, secant, sine, tangent, trig, trig functions, trigonometric, trigonometric functions, trigonometry
Posted in Calculus | No Comments »

Degrees and Radians

Thursday, September 3rd, 2009

How to Convert Degrees into Radians

Description

This video gives an in-depth tutorial on how to convert degrees to radians, and how to convert radians back into degrees. Many examples are provided and explanations are set up in an easy to understand fashion.

Overview

Degrees are a very common thing to see – they are used in solving angles, and sometimes used in solving trangle problems. However, degrees are only a unit, and like any unit they can be converted to another one. Degrees are converted to radians – radians are used with sine, cosine, and tangent. The easiest way to remember radians is to memorize the most common degrees and their conversion into radians:

0 degrees = 0 radians

30 degrees = pi/6 radians

45 degrees = pi/4 radians

60 degrees = pi/3 radians

90 degrees = pi/2 radians

Tags: angles, cos, cosine, degrees, Math, pi, radians, sin, sine, tan, tangent, triangles, trigonometry
Posted in Trigonometry | No Comments »