There is no equation in the question: only an expression.
S = v*t s = displacement v = velocity t = time
If xwat are variables or constants that are multiplied together, divide each side of the equation by the non-"t" ones to arrive at a "t=" equation. For example, if the equation is xwat = 1, then t = 1/xwa. If there should have been + or - operations in the equation, reverse those first, before doing any multiplying or dividing. Perform the same operations on both sides of the equation. For example, if the equation were xw+at = 1, then at = 1 - xw, then t = (1-xw)/a.
The equation for the average over time T is integral 0 to T of I.dt
There are three "T" symbols to be placed inside the initial "T" to make a valid Roman numeral equation. The solution would be: III = T.
Frequency (f) is the inverse of period (T), so the equation relating the two is: f = 1/T
3
t - 17 = 48 The first step is to move the -17 to the right side of the equation and end up with: t = 48 + 17. (When you switch sides, the sign changes) To solve the equation: t = 65
To rearrange the equation for acceleration, you start with the equation (a = \frac{v_f - v_i}{t}) where (a) is acceleration, (v_f) is final velocity, (v_i) is initial velocity, and (t) is time. You can rearrange it to solve for any of the variables by manipulating the equation algebraically. For example, to solve for final velocity, you rearrange the equation as (v_f = v_i + a \times t).
Yes, a linear equation in t.
T/oC = T/K - 273.15
T=1/f or T=wavelength/ velocity