Difference between revisions of "Trigonometry"
| Line 1: | Line 1: | ||
While most people associate trigonometry with triangles, it is more useful in technical fields to consider the trigonometric functions as related to circles. | While most people associate trigonometry with triangles, it is more useful in technical fields to consider the trigonometric functions as related to circles. | ||
| + | ==Sine== | ||
function of time = A''sin''(2πft + φ) = A''sin''(ωt + φ) | function of time = A''sin''(2πft + φ) = A''sin''(ωt + φ) | ||
| Line 16: | Line 17: | ||
When φ is non-zero, the entire waveform appears to be shifted in time by the amount φ/ω seconds. A negative value represents a delay, and a positive value represents an advance. | When φ is non-zero, the entire waveform appears to be shifted in time by the amount φ/ω seconds. A negative value represents a delay, and a positive value represents an advance. | ||
| + | |||
| + | In general, the function may also have: | ||
| + | a spatial variable x that represents the position on the dimension on which the wave propagates, and a characteristic parameter k called wave number (or angular wave number), which represents the proportionality between the angular frequency ω and the linear speed (speed of propagation) ν; | ||
| + | a non-zero center amplitude, D | ||
| + | which is | ||
| + | y ( x , t ) = A sin( k x − ω t + φ ) + D, if the wave is moving to the right | ||
| + | y ( x , t ) = A sin ( k x + ω t + φ ) + D, if the wave is moving to the left. | ||
| + | The wavenumber is related to the angular frequency by:. | ||
| + | k = ω v = 2 π f v = 2 π λ {\displaystyle k={\omega \over v}={2\pi f \over v}={2\pi \over \lambda }} | ||
Revision as of 17:51, 23 March 2020
While most people associate trigonometry with triangles, it is more useful in technical fields to consider the trigonometric functions as related to circles.
Sine
function of time = Asin(2πft + φ) = Asin(ωt + φ)
where:
A, amplitude, the peak deviation of the function from zero.
t, time
f, ordinary frequency, the number of oscillations (cycles) that occur each second of time.
ω = 2πf, angular frequency, the rate of change of the function argument in units of radians per second
φ , phase, specifies (in radians) where in its cycle the oscillation is at t = 0.
When φ is non-zero, the entire waveform appears to be shifted in time by the amount φ/ω seconds. A negative value represents a delay, and a positive value represents an advance.
In general, the function may also have: a spatial variable x that represents the position on the dimension on which the wave propagates, and a characteristic parameter k called wave number (or angular wave number), which represents the proportionality between the angular frequency ω and the linear speed (speed of propagation) ν; a non-zero center amplitude, D which is y ( x , t ) = A sin( k x − ω t + φ ) + D, if the wave is moving to the right y ( x , t ) = A sin ( k x + ω t + φ ) + D, if the wave is moving to the left. The wavenumber is related to the angular frequency by:. k = ω v = 2 π f v = 2 π λ {\displaystyle k={\omega \over v}={2\pi f \over v}={2\pi \over \lambda }}
