The sine function repeats every 2pi radians (360 degrees).
It depends on the function.
No. A linear equation is just one type of function.If you graph a linear equation, you get a straight line.A "function" on the other hand can take on many different forms: a straight line, a wave line (the sine function), a parabola, etc.No. A linear equation is just one type of function.If you graph a linear equation, you get a straight line.A "function" on the other hand can take on many different forms: a straight line, a wave line (the sine function), a parabola, etc.No. A linear equation is just one type of function.If you graph a linear equation, you get a straight line.A "function" on the other hand can take on many different forms: a straight line, a wave line (the sine function), a parabola, etc.No. A linear equation is just one type of function.If you graph a linear equation, you get a straight line.A "function" on the other hand can take on many different forms: a straight line, a wave line (the sine function), a parabola, etc.
No. The inverse of the secant is called the arc-secant. The relation between the secant and the cosecant is similar to the relation between the sine and the cosine - they are somehow related, but they are not inverse functions. The secant is the reciprocal of the cosine (sec x = 1 / cos x). The cosecant is the reciprocal of the sine (cos x = 1 / sin x).
Sine = opposite / hypotenuse
The numerator function x2 - 4 and the denominator function x2 + 3x + 2 are both continuous functions of x for the entire x-axis. However, the quotient of these two functions is not continuous when the denominator function has the value of 0, because division by zero is not defined. The denominator function is 0 when x = -1 or -2. Therefore, the quotient function is not fully continuous over any intervals that include -1 or -2, but it is "piecewise continuous" over other intervals of the x-axis.
The differential of the sine function is the cosine function while the differential of the cosine function is the negative of the sine function.
Waves are periodic function, as is the sine function.
A step function can be viewed as a specific case of a periodic function when it repeats its values at regular intervals. For example, a simple step function that takes constant values over intervals can be defined to repeat these intervals periodically. The periodic nature of the step function can be characterized by its period, which dictates how often the step pattern repeats. However, unlike traditional periodic functions (like sine or cosine), step functions typically exhibit discontinuities at their transition points.
Yes, sine is a trig function, it is opposite over hypotenuse.
A sine graph!
Yes, the sine function is a periodic function. It has a period of 2 pi radians or 360 degrees.
Yes. Along with the tangent function, sine is an odd function. Cosine, however, is an even function.
The sign is >. Sine is a trigonometric function.
Yes
The domain of the sine function is [-infinity, +infinity].The range is [-1, +1].The sine function is periodic. It repeats itself every 360 degrees or 2PI radians.
A sine wave is a periodic function and, by suitably adjusting the argument of the sine function, can be made to fit a wide functions with different frequencies.
Yes.