Timing functions as Bézier curves
An easing timing function is basically a Bézier curve from
(1,1) where the horizontal axis is "time" and the vertical axis is "amount of change". Since a Bézier curve mathematically is as
start*(1-t)^3 + c1*t(1-t)^2 + c2*t^2(1-t) + end*t^3
you can insert any time value and get the amount of change that should be applied. Note that both time and change is normalized (in the range of 0 to 1).
Note that the variable t is not the time value, t is how far along the curve you have come. The time value is the x value of the point along the curve.
The curve below is a sample "ease" curve that starts off slow, goes faster and slows down in the end.
If for example a third of the time had passed you would calculate what amount of change that corresponds to be update the value of the animated property as
currentValue = beginValue + amountOfChange*(endValue-beginValue)
Say you are animating the position from
(50, 50) to
(200, 150) using a curve with control points at
(0.6, 0.0) and
(0.5, 0.9) and a duration of 4 seconds (the control points are trying to be close to that of the image above).
When 1 second of the animation has passed (25% of total duration) the value along the curve is:
(0.25,y) = (0,0)*(1-t)^3 + (0.6,0)*t(1-t)^2 + (0.5,0.9)*t^2(1-t) + (1,1)*t^3
This means that we can calculate
0.25 = 0.6*t(1-t)^2 + 0.5*t^2(1-t) + t^3
Wolfram Alpha tells me that
t = 0.482359
If we the input that
y = 0.9*t^2*(1-t) + t^3
we will get the "amount of change" for when 1 second of the duration has passed.
Once again Wolfram Alpha tells me that
y = 0.220626 which means that 22% of the value has changed after 25% of the time. This is because the curve starts out slow (you can see in the image that it is mostly flat in the beginning).
So finally: 1 second into the animation the position is
(x, y) = (50, 50) + 0.220626 * (200-50, 150-50)
(x, y) = (50, 50) + 0.220626 * (150, 100)
(x, y) = (50, 50) + (33.0939, 22.0626)
(x, y) = (50+33.0939, 50+22.0626)
(x, y) = (83.0939, 72.0626)
I hope this example helps you understanding how to use timing functions.