Ohm's Law is E = I x R
Albert Einstein.
Einstein developed the E = mc squared formula.
Einstein
No. E=mc2 is a formula. Energy equals mass times the speed of light squared.
In the formula E=IR, E represents voltage (in volts), I represents current (in amperes), and R represents resistance (in ohms). This formula is known as Ohm's Law in electrical engineering.
Ohm's Law is E = I x R
The formula for resistance (R) is R = E/I, where E is the voltage and I is the current flowing through the circuit.
You need to use the formula E = IR + Ir where: E is the e.m.f. of the power supply (the theoretical maximum voltage across the terminals when no current is flowing) I is current R is resistance of the circuit (load resistance) and r is the internal resistance of the power supply. Therefore, you can rearrange this formula to give r: E = IR + Ir (Subtract IR) E-IR=Ir (divide by I) (E-IR)/I=r or r=(E-IR)/I
Ohm's law: E (voltage) equals I (current) multiplied by R (resistance). It describes the relationship between voltage, current, and resistance in an electrical circuit.
You need to use the formula E = IR + Ir where: E is the e.m.f. of the power supply (the theoretical maximum voltage across the terminals when no current is flowing) I is current R is resistance of the circuit (load resistance) and r is the internal resistance of the power supply. Therefore, you can rearrange this formula to give r: E = IR + Ir (Subtract IR) E-IR=Ir (divide by I) (E-IR)/I=r or r=(E-IR)/I
The correct formula is E = mc2 (E equals m c squared) and it was coined by Albert Einstein.
Albert Einstein.
Einstein developed the E = mc squared formula.
CI(t)=1-e-IR(t)*D
Einstein
No. E=mc2 is a formula. Energy equals mass times the speed of light squared.