How the are you supposed to simplify sin(2t)-tan(t) any further?
Every website I've looked at recognizes that form as the simplest.
Maybe they consider sin(2t) to be more complex than 2sin(t)cos(t)
Sin (2t) - tan (t)
2sin (t)cos (t) - sin (t)/cos (t)
[Sin (t)/cos (t)]•[2cos^2 (t) - 1]
Tan (t)•[cos (2t)]
Yeah I need more context to know what they consider to be more simplified.
>>53841
You helped a lot. Just trying to make sure I completely understand the transitions.
>>53841
How did you go from:
2sin (t)cos (t) - sin (t)/cos (t)
[Sin (t)/cos (t)]•[2cos^2 (t) - 1]
on the right side. I understand relating the first part to 2cost^2-1, but how do you go from subtracting sin (t)/cost(t) to multiplying it?
Fuck off, nerds :)
>>53841
I don't understand where the negative symbol for sin (t)/cos (t) goes? I've seen the end result one other random place as an option, but I've yet to see how you turn:
2cos^2 (t) -1 - tan (t)
into
tan (t) 2cos^2 (t) - 1
>>53856
Factor out sin/cos. I sorta skipped a step.
2sin (t)cos (t) - sin (t)/cos (t)
2sin (t)cos^2 (t)/cos (t) - sin (t)/cos (t)
[Sin (t)/cos (t)]•[2cos^2 (t) - 1]
Does that help?