1. Based on the figure below, determine the էլեկտրական հոսանք միջոցով R1.
Հայտնի է.
Դիմադրություն 1 (R1) = 4 Ω
Դիմադրություն 2 (R2) = 4 Ω
Դիմադրիչ 3 (Ռ3) = 8 Ω
Էլեկտրական լարում (Վ) = 40 Վոլտ
SE busca: Electric current through R1
Լուծում.
The electric current flows from high potential to low potential. The direction of electric current in the circuit above is the same as a clockwise direction.
The electric current that flows out of the battery
First, calculate the equivalent resistance (R). Thereafter, calculate the electric current using the equation of Օհմի օրենքը :
V = IR or I=V/R
V= վոլտաժ, I = էլեկտրական հոսանք, R = the equivalent resistance
The equivalent resistance :
Ռեզիստոր R1 և resistor R2 are connected in parallel. The equivalent resistance :
1 / Ռ12 = 1/R1 + 1/R2 = 1/4 + 1/4 = 2/4
R12 = 4/2 = 2 Ω
Ռեզիստոր R12 և resistor R3 միացված են շարքով. The equivalent resistance :
R = R12 + R3 = 2 + 8 = 10 Օմ
The electric current that flows out of the battery :
I = V / R = 40 / 10 = 4 A
The electric current that flows out of the battery is 4 Ampere.
Էլեկտրական լարում Vab և Vbc
Kirchhoff‘s first rule states that at any junction point, the sum of all currents entering the junction must equal the sum of all currents leaving the junction.
Հիմնված Kirchhoff’s first rule, concluded that if the electric current flows out of the battery is 4 A then the electric current through a-b is equal to 4 Ampere, so also the electric current through b-c is 4 Ampere.
Էլեկտրական լարում Vab :
Vab = Iab Rab = (4)(2) = 8 Վոլտ
Էլեկտրական լարում Vbc :
Vbc = Ibc Rbc = (4)(8) = 32 Վոլտ
The above circuit is connected in series so that the total electrical voltage is Վ = Վab + Vbc = 8 Վոլտ + 32 Վոլտ = 40 Վոլտ։
The electric current flows through R1 = 4 Ω
I1 = Vab / Ռ1 = 8 Volt / 4 Ohm = 2 A
I2 = Vab / Ռ2 = 8 Volt / 4 Ohm = 2 A
The electric current that flows out of the battery is 4 A. When it arrives at point a the electric current is divided into two, the electric current of 2 Ampere flows through the resistor R1 և
the electric current of 2 A flows through the resistor R2. 2 A + 2 A = 4 A.
2. Based on the figure below, determine the electric current that flows through resistor 4-Ω.
Հայտնի է.
Դիմադրություն 1 (R1) = 6 Ω
Դիմադրություն 2 (R2) = 4 Ω
Դիմադրություն 3 (R3) = 1.6 Ω
The electric voltage (Վ) = 16 Վոլտ
SE busca: The electric current flows through 4 Ω
Լուծում.
The electric current flows from high հնարավոր to low potential. The direction of electric current in the circuit above is the same as a clockwise direction.
The electric current that flows out of the battery
The equivalent resistance :
Ռեզիստոր R1 և resistor R2 are connected in parallel. The equivalent resistor :
1 / Ռ12 = 1/R1 + 1/R2 = 1/6 + 1/4 = 2/12 + 3/12 = 5/12
R12 = 12/5 = 2.4 Ω
Ռեզիստոր R12 և resistor R3 are connected in series. The equivalent resistor :
R = R12 + R3 = 2.4 + 1.6 = 4 Օմ
The electric current that flows out of the battery :
I = V / R = 16 / 4 = 4 A
The electric voltage Vab և Vbc
Based on Kirchhoff’s first rule, concluded that if the electric current flows out of the battery is 4 A then the electric current through a-b is equal to 4 Ampere, so also the electric current through b-c is 4 Ampere.
The electric voltage Vab :
Vab = Iab Rab = (4)(2.4) = 9.6 Վոլտ
The electric voltage Vbc :
Vbc = Ibc Rbc = (4)(1.6) = 6.4 Վոլտ
The above circuit is connected in series so that the total electric voltage is Վ = Վab + Vbc = 9.6 Վոլտ + 6.4 Վոլտ = 16 Վոլտ։
The electric current that flows through R2 = 4 Ω
I1 = Vab / Ռ1 = 9.6 Volt / 6 Ohm = 1.6 A
I2 = Vab / Ռ2 = 9.6 Volt / 4 Ohm = 2.4 A
The electric current that flows out of the battery is 4 A. When it arrives at point a the electric current is divided into two,
the electric current 1.6 A flows through the resistor R1 and the electric current 2.4 A flows through the resistor R2. 1.6 A + 2.4 A = 4 A.