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if we remove a resistor from the parallel connection the effective resistance value will be increased.
If you are referring to an electrical circuit, a series circuit is wired in such a way that if one object is removed from the circuit, the circuit is broken and everything within the circuit loses power. In a parallel circuit different components of the circuit can be removed without disabling power to the rest of the devices within the circuit.
No, the total resistance increases.
By connecting it to a circuit with the power still applied. Ohm meters work best when the component under test is removed from the circuit to eliminate parallel paths of current through other components.
Because circuit don't break unlike in series.That means rest of the component are getting the voltage across them.
wirewound you mean? seams pretty self explanitory, wires that are wound form a mag field.
Capacity to the equivalent of the battery is reduced - that is, you'll run out of charge quicker but the voltage delivered will still be the same.
It must (i) increase, or (ii) decrease, or (iii) stay the same. If (iii), there's no point in having it at all, so consider what happens to stage gain at the lowest frequencies, as the capacitor has less and less effect on the circuit.
assume the following configuration: battery connected to 2 parallel resistors with an ammeter in series with the battery... observe the current measurement ... remove one of the resistors .... observe the current again, it will have decreased: if the resistors were of equal value, the current will decrease to half of its original value when one of the resistors is removed. Mathematics: V=IR (V- voltage, I - current, R - resistance in a parallel circuit, R=(R1*R2)/(R1+R2) where R1 and R2 are the values of resistance of the resistors. Before removal- Ib=V*(R1+R2)/(R1*R2) After removal (assume R2 is removed)- Ia=V/R1 so Ia/Ib=(R1*R2)/(R1*(R1+R2)) or Ia=Ib*(R2/(R1+R2) if R1=R2 then Ia=Ib*R2/(2*R2) or Ia=Ib/2 so the current after is 1/2 of that before.
it won't flow
If two or more circuit components are connected end to end like a daisy chain, it is said they are connected in series. A series circuit is a single path for electric current through all of its components. Bulbs will get dimmer the further along the chain. If two or more circuit components are connected like the rungs of a ladder it is said they are connected in parallel. A parallel circuit is a different path for current through each of its components. A parallel circuit provides the same voltage across all its components and hence the same brightness of bulb.The voltage is the same in a parallel circuit while the voltage is shared in a series circuit.
all the lights would go out which is why most new lights these days are wired in parallel or prevent that from happening and then you just replace the one bulb... some lights have both a series and parallel circuit in a complete light circuit. for example (A) the complete light circuit has 4 (B) series sections and with each series circuit you have a (C) parallel circuit... so when (A) is lit up and the 3rd section of (B) is lit up and one bulb is out you have a bulb failure in the (C) circuit and if the same scenario is there and the first bulb in the (b) section is out the entire (B) section would be out which is a series circuit failure. Hope this helps