Respuesta :
According to the given statement:
- The frequency response does not change, which is the first thing we notice.
- The new resistance at the resonance point causes a reduction in the circuit's current flow.
- Z = R + R₂
The definition of series circuits:
electrical circuit. The path that the entire current takes as it passes through each component makes up a series circuit. Branching is used in parallel circuits to divide the current and limit the amount that flows through each branch.
How does a series circuit operate?
According to this definition, there are three principles of series circuits: all parts share the same current, resistances add up to a larger total resistance, and voltage drops add up to a larger total voltage. In the definition of a series circuit, all of these guidelines have their origin.
According to the given information:
The impedance of a series circuit is
Z₀² = R² + (X[tex]_L[/tex]-X[tex]_C[/tex]) ²
The initial resistance impedance shifts to when we add another resistor to the series
Z² = (R + R₂) ² + (X[tex]_L[/tex] - X[tex]_C[/tex]) ²
Let's examine this sentence.
- The frequency response remains unchanged, which is the first thing we notice.
- The new resistance at the resonance point causes the circuit's current to decrease.
Z = R + R₂
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