Question

Early American rockets used an RC circuit to set the time for the rocket to begin re-entry after launch (true story). Assume the capacitor is initially charged, and then discharge begins at launch, t = 0 (this was when the umbilical connector was disconnected). Further assume the resistor in the RC circuit is 1k Ω, and the control circuit begins re-entry when the voltage drops ~63% or to ~37% of full-scale (i.e. 1 time constant), and re-entry is desired to commence at 5 minutes (i.e. 300 seconds after launch). Calculate the capacitor value required.

Answer 1

C = 0.3 F

Step-by-step explanation:

The expression for a voltage in a capacitor with an initial voltage V₀, as a function of time, is given by the following equation:

`V= Vo*e^(-t/RC)`

When V = =.37*V₀, we have the following expression:

`(V)/(Vo) = e^(-t/RC) = 0.37`

Applying ln to both sides, we have:

`(-t)/(RC) = ln 0.37 = -1`

⇒ t = R*C

if t= 300 s, and R = 10³ Ω, we can solve for C as follows:

`C = (t)/(R) = (3e2 s)/(1e3 ohms) = 0.3 F`

So, the required value for C is 0.3 F.