I wrote about the idea of representing AC circuits using complex numbers. Consider an RLC series circuit as shown in Figure 1. Now, the instantaneous value of the current flowing through this circuit is $$i(t)=I_m\sin(\omega t-\theta)\hspace{185pt}(1)$$ The instantaneous value of voltage is $$e(t)=Ri(t)+L\frac{di(t)}{dt}+\frac{1}{C}\int i(t)dt\hspace{130pt}(2)$$ $$=RI_m\sin(\omega t-\theta)+L\frac{d}{dt}\{I_m\sin(\omega t-\theta)\}+\frac{1}{C}\int I_m\sin(\omega t-\theta)dt\hspace{15pt}(3)$$ Here, there are two options: to …
Author: aquarius29
Vehicle speed graph automatic drawing tool
Let’s draw a speed graph of your favorite car using the easy graph drawing tool! ◉How to use◉ step1 Enter a number in the text box below. The value to enter is the value written on the spec sheet of your car or motorcycle. step2 A graph is automatically drawn according to the input values. …
Calculation tool to find the vehicle speed (maximum speed) of a motorcycle or car
Easily find your car’s top speed using our calculator! ◉How to use◉ step1 Please enter numbers in all text boxes from ① to ⑦. The value to be entered is the value written in the specification sheet of the motorcycle or car. step2 The calculation result will be displayed in ⑧. サンプル ①Engine RPM r[rpm] …
Tool to find approximation of square root
I created a simple tool to find the square root of any number using Newton’s algorithm. ★How to use★ If you enter numerical values in the text boxes ① to ③ and tap the automatic calculation button, the results will be displayed in the text box ④. ①Initial value x0➡︎Any number is OK. ②k➡︎Enter the …
Tool to find the greatest common divisor of two natural numbers
I created a simple tool to find the greatest common divisor of two natural numbers using Euclidean Algorithm. ☆How to use☆ step1 Enter numerical values for natural numbers α and β. The input range is 8 digits (1 to 99999999). step2 When you tap (click) the automatic calculation button, the calculation result will be displayed …
Solution of RL series circuit using Laplace transform (for DC power supply)
Considering the RL series circuit shown in Figure 1, and assuming that the DC power supply is E and the current that flows through the circuit after t seconds is I, the following formula holds true. $$E=RI+L\frac{dI}{dt}\hspace{50pt}(1)$$ Let’s consider how to solve a differential equation using the Laplace transform to find the current I. Laplace …
Solution of RL series circuit using Laplace transform (for AC power supply)
fig.1 RL series circuit(Alternating current) Now, let’s consider an RL series circuit as shown in Figure 1, assume the AC power source is E, and think about how to find the current I that flows t seconds after turning on the switch. Now, in the circuit of Figure 1, the following circuit equation holds true …