I would guess you're thinking of multiplication associativity, which says that a(bc) = (ab)c. The trouble is, and this is a common mistake, tan 6x does NOT mean tan * 6 * x. I usually use parenthese to emphasize the fact that tan represents a function, not a factor in a product.skj91 said:Just want to verify if I am correct in assuming that
tan 6x is exactly the same thing as 6 tan x
It's merely a matter of rearranging the variables of algebra's multiplicative identity, am I right?
jedishrfu said:No that's not right.
You can test this easily with your calculator:
Does 6 * tan (10 degrees) =?= tan (60 degrees) ?
You have to use the tan(a+b) formula to break it down the right way:
tan(a+b) = ( tan(a) + tan(b) ) / ( 1-tan(a)*tan(b) )
jedishrfu said:http://en.wikipedia.org/wiki/List_of_trigonometric_identities
look at angle sum / difference identities in the above link to wikipedia.
jedishrfu said:Okay tan(6x) = tan(3x + 3x) = ( tan(3x) + tan(3x) ) / ( 1 - tan(3x)*tan(3x) )
So now break down tan(3x) = tan(2x + x) and repeat the process...
jedishrfu said:Okay tan(6x) = tan(3x + 3x) = ( tan(3x) + tan(3x) ) / ( 1 - tan(3x)*tan(3x) )
So now break down tan(3x) = tan(2x + x) and repeat the process...
skj91 said:So basically I need to view the internals of any pie functions not as some value with substance, like a measurement or quantity, but instead see it as an indicator of what actions to perform on those contents, like a pattern of operations or protocol? And the values given will provide sort-of a starting point or clue as to which operations--which sine or cosine laws or rules--are applicable? Because straight across algebra isn't correct? Unless the values given are in radians or degrees, right? Then you can treat them like normal algebra, right?
"pie functions" ?? If you're referring to ##\pi##, that's "pi." Pie is something to eat; pi is a number.skj91 said:So basically I need to view the internals of any pie functions
There are six trig functions: sin, cos, tan, cot, sec, and csc. The tan, cot, sec, and csc functions can be rewritten in terms of sin or cos or both. These are identities that you learn when you're starting with trig.skj91 said:not as some value with substance, like a measurement or quantity, but instead see it as an indicator of what actions to perform on those contents, like a pattern of operations or protocol? And the values given will provide sort-of a starting point or clue as to which operations--which sine or cosine laws or rules--are applicable?
What you were doing wasn't "straight across algebra" since you were ignoring the fact that tan(6x) does NOT mean tan * 6 * x. It means the tangent of 6x, in the same way that √(6x) means the square root of 6x.skj91 said:Because straight across algebra isn't correct?
Doesn't make any difference. If you had tan(6 * 30°) that would be the tangent of 6 * 30°, or the tangent of 180°.skj91 said:Unless the values given are in radians or degrees, right?
?skj91 said:Then you can treat them like normal algebra, right?
This statement means that the trigonometric function tangent of 6 times an angle (6x) is equivalent to multiplying the tangent of the angle by 6.
Yes, this statement is always true because of the trigonometric identity tan(nx) = n * tan(x), where n is a constant and x is an angle.
Yes, this statement can be applied to any angle, whether it is in degrees or radians. However, the values of the tangent function may differ depending on the unit of measurement.
This statement can be useful in simplifying complex trigonometric expressions and equations. It can also help in solving problems involving angles and triangles.
Yes, there are many other trigonometric identities that involve multiplying or dividing trigonometric functions. Some examples include sin(nx) = n * sin(x) and cos(nx) = n * cos(x).