What Are the Key Transformations for Trigonometric Graphs?

AI Thread Summary
Graph transformations for trigonometric functions involve adjusting parameters in the sinusoidal equation f(x) = a sin(b(x - h)) + k. Changing the value of b modifies the period of the graph, while altering a affects the amplitude and can also cause a reflection across the x-axis if negative. The parameter h introduces a phase shift, moving the graph horizontally, and k shifts it vertically. The discussion highlights that these transformations are applicable to trigonometric graphs, allowing for cycles to be increased or decreased. Overall, understanding these transformations is essential for graphing and analyzing sinusoidal functions effectively.
Peter G.
Messages
439
Reaction score
0
I am revising my graph transformations and I am curious:

If we graph sin (2x) or sin (x/2) we are able to increase and reduce their cycles.

Is there any transformation for other lines/graphs?

My doubt is we can also do 2 sin (x), which is the stretch parallel to the y-axis as I am familiar.

But I am guessing the cycle increase and decrease is unique to the trigonometric curves?
 
Physics news on Phys.org
Sinusoids are written in the form
f(x) = a \sin (b(x - h)) + k

Altering b affects the period of the graph, as you said. And yes, altering a will affect the amplitude (ie. vertical stretch or shrink). And if a is negative, there would be a reflection across the x-axis as well. Altering h would affect the phase shift (ie. horizontal shift), and altering k would move the graph of the sinusoid up or down.
 

Thread 'Finding the number of ways to arrange identical balls in a circle (3 different colors)'

I tried to combine those 2 formulas but it didn't work. I tried using another case where there are 2 red balls and 2 blue balls only so when combining the formula I got ##\frac{(4-1)!}{2!2!}=\frac{3}{2}## which does not make sense. Is there any formula to calculate cyclic permutation of identical objects or I have to do it by listing all the possibilities? Thanks
View full post »

Thread 'Greatest possible value of a constant in polynomial'

Since ##px^9+q## is the factor, then ##x^9=\frac{-q}{p}## will be one of the roots. Let ##f(x)=27x^{18}+bx^9+70##, then: $$27\left(\frac{-q}{p}\right)^2+b\left(\frac{-q}{p}\right)+70=0$$ $$b=27 \frac{q}{p}+70 \frac{p}{q}$$ $$b=\frac{27q^2+70p^2}{pq}$$ From this expression, it looks like there is no greatest value of ##b## because increasing the value of ##p## and ##q## will also increase the value of ##b##. How to find the greatest value of ##b##? Thanks
View full post »

Similar threads

Graph Sin(2x+6): Is Parent Function the Best Option?
Replies
6
Views
2K
Graphical Transformations and Finding the Equation of a Curve
Replies
3
Views
1K
Trigonometric equation solving 2cos x=tan x
Replies
6
Views
3K
Trigonometric graph transformation
Replies
2
Views
2K
Trigonometric Equations Problems - Rather Confused
Replies
1
Views
2K
Transforming sinx to sinx + cosx
Replies
6
Views
2K
Hi, I have a quick question about graph transformations.
Replies
2
Views
1K
Graphs of sin and cos, how to set points for x values
Replies
2
Views
2K
I Questions about these Trigonometry Graphs involving sin() and cos()
Replies
3
Views
2K
Graphical Transformation of y=ln (x)
Replies
4
Views
2K

Hot Threads

Recent Insights

Back
Top