To find the potential difference (voltage) across the resistor, we can use Ohm's Law, which states: V = I × R Where: V = Voltage (in volts, V) I = Current (in amperes, A) R = Resistance (in ohms, Ω) Given values: I = 5 A R = 20 Ω Plugging in the values, we get: V = 5 A × 20 Ω V = 100 V So, the potential difference or electrical pressure across the 20 ohm resistor is 100 volts.
Ans of Q 11: The correct answer is A) current passing through each component is same. This is because, in a series circuit, the current passing through each component is the same, as the current has only one path to flow. The other options are incorrect because: - B) Voltage across each component can be different, depending on the resistance of each component. - C) The sum of individual resistances in a circuit is equal to the total resistance of the circuit only in a series circuit, not in a parallel circuit.
Ans of Q6: To find the potential difference (voltage) across the resistor, we can use Ohm's Law, which states: V = I × R Where: V = Voltage (in volts, V) I = Current (in amperes, A) R = Resistance (in ohms, Ω) Given values: I = 5 A R = 20 Ω Plugging in the values, we get: V = 5 A × 20 Ω V = 100 V So, the potential difference or electrical pressure across the 20 ohm resistor is 100 volts.
The correct answer is A) current passing through each component is same. This is because, in a series circuit, the current passing through each component is the same, as the current has only one path to flow. The other options are incorrect because: - B) Voltage across each component can be different, depending on the resistance of each component. - C) The sum of individual resistances in a circuit is equal to the total resistance of the circuit only in a series circuit, not in a parallel circuit.
Ohms law qn 6. V=IR= 5x20= 100 volts allei
To find the potential difference (voltage) across the resistor, we can use Ohm's Law, which states:
V = I × R
Where:
V = Voltage (in volts, V)
I = Current (in amperes, A)
R = Resistance (in ohms, Ω)
Given values:
I = 5 A
R = 20 Ω
Plugging in the values, we get:
V = 5 A × 20 Ω
V = 100 V
So, the potential difference or electrical pressure across the 20 ohm resistor is 100 volts.
Ans of Q 11: The correct answer is A) current passing through each component is same.
This is because, in a series circuit, the current passing through each component is the same, as the current has only one path to flow.
The other options are incorrect because:
- B) Voltage across each component can be different, depending on the resistance of each component.
- C) The sum of individual resistances in a circuit is equal to the total resistance of the circuit only in a series circuit, not in a parallel circuit.
Ans of Q6: To find the potential difference (voltage) across the resistor, we can use Ohm's Law, which states:
V = I × R
Where:
V = Voltage (in volts, V)
I = Current (in amperes, A)
R = Resistance (in ohms, Ω)
Given values:
I = 5 A
R = 20 Ω
Plugging in the values, we get:
V = 5 A × 20 Ω
V = 100 V
So, the potential difference or electrical pressure across the 20 ohm resistor is 100 volts.
Qn 11 also wrong
The correct answer is A) current passing through each component is same.
This is because, in a series circuit, the current passing through each component is the same, as the current has only one path to flow.
The other options are incorrect because:
- B) Voltage across each component can be different, depending on the resistance of each component.
- C) The sum of individual resistances in a circuit is equal to the total resistance of the circuit only in a series circuit, not in a parallel circuit.
Sorry
Too many answers you are saying in this video are wrong
Aano... so sorry for that