That depends on the definition of T'2
Period = wavelength/speed
Well, let's see:Force of gravity = G M1 M2 / R2So G = (force) x (distance)2 / (mass)2 = (M L / T2) x (L2) / (M2) = (M L3) / (M2 T2) =(Length)3 (Mass)-1(Time)-2
The ratio of the quantity between two sets of time an equal period apart are the same. That is, the rate of growth over the same time is a constant. Suppose V(t) is the value of the variable V at time t. Then, if t1, t2, t3 and t4 are four times such that t2 - t1 = t4 - t3 then V(t2)/V(t1) = V(t4)/V(t3) whether V is compound interest or exponential growth.
the period is 2pi. period is 2pi/b and the formula is y=AsinBx.
by using the formula we will calculat time period of simple harmonic motion
T2 = P2 x T1 / P1
Formula for the nth term of general geometric sequence tn = t1 x r(n - 1) For n = 2, we have: t2 = t1 x r(2 - 1) t2 = t1r substitute 11.304 for t2, and 2.512 for t1 into the formula; 11.304 = 2.512r r = 4.5 Check:
The formula for position is x = 1/2at2. If we start at a distance of 40 feet, and gravity is 32 feet per second squared. So in this instance: 40 = 1/2 (32) t2 40 = 16 t2 40/16 = t2 2.5 = t2 t = 1.58 seconds
There is a more complex formula that cannot be printed here, but for the sake of simplicity, you can consider the period T to be proportional to the square root of the length of the pendulum L. If L is halved, then T2 is proportional to the square root of 1/2, or approximately 0.707 times T1.
the average of the temperatures T(final) = (T1 + T2) / 2
Formula for the Payback Period. Payback period = Initial investment / Annual Cash inflows
Relates that if held under constant pressure the ratio of Vol/Temp remains constant. i.e, V1 / T1 = V2 / T2 (where T is in Kelvin)
T1 = 273.15K. T2 = 410.15K. V1 = 350mL. V2 = ? P1 = P2. Since pressure is constant you can use the formula. V1/T1 = V2/T2 Rearrange the formula to get: V2 = T2V1/T1
Average speed is equal to displacement over time, so the formula would be: vavg = (x2 - x1) / (t2 - t1).
The formula is: 0,108 x 3000 x (T1 -T2), in kilocalories.
Average speed is equal to displacement over time, so the formula would be: vavg = (x2 - x1) / (t2 - t1).
Type your answer here... it is a T2 hyperintense foci