Want this question answered?
There will be no effect on the voltage. That is the effective voltage will be only 12 volt. But there will be increase of current.
In a series circuit, there is only one path for the current to flow through. In a parallel circuit, there are multiple paths for the current to flow through. For example, most old Christmas lights are series circuits. If one light in the whole strand of lights went out, then all the lights would go out. This is because once one resistance is out, the circuit is no longer complete, so the current can not flow. An example of a parallel circuit could be your household lighting. When you turn on your kitchen lights, your bathroom lights don't turn on with it, do they? That is because it is a parallel circuit. In a parallel circuit, there are multiple paths for the current. It doesn't matter if one light is on and another is off because the current can go through another way. In a series circuit as you increase resistance, the voltage and current decrease. In a parallel circuit, as you increase resistance, the voltage and current increase. Think of a series circuit as a one-lane road. The car would be the current, the gas in the car would the voltage, and the traffic lights would be the resistance. Since you are on a one-lane road, as you keep stopping at traffic lights, you aren't going very fast or far. Now, think of parallel circuits as a multi-lane road (or highway). The car is the current, the gas in the car is the voltage, and the traffic lights (or closed roads, or accidents, anything that would slow you down on the road) are the resistance. When you are driving and one road is closed, you don't have to stop because you can continue driving and go on a different road to reach your destination.
A new song called parallelism, it goes parallel one, parallel two, parallel three
Parallel is a term that is usually used to describe the direction of a line. Parallel runs in the direction of north and south.
The parallel minor key is that which has the same tonic note. So, the parallel minor to F major is F minor.
No, there is no reason for them to change in any way: increase, remain the same or decrease.
if we remove a resistor from the parallel connection the effective resistance value will be increased.
In simple way resistor bank contains number of resistors in series or parallel combination. They are connected in parallel to decrease the resistance and increase current rating and power dissipation.And they are connected in series to increase resistance and power dissipation.
the answer is dont forget marketing plan
(a) Charge Will increase (b) Potential difference will stay the same (c) Capacitance will increase (d) Stored energy will decrease
It will decrease the effective load resistance across the power supply terminals, increase the total current through the load, and increase the total power required to be supplied by the power supply.
Overall brightness (not individual bulbs' brightness) will increase when we connect them in parallel & it will decrease when we connect them in series.
If additional resistance is connected in parallel with a circuit the supply voltage will decrease?
No, maximising throughput does not necessarily mean maximising turnaround time. Throughput is a measure of how many operations can be performed in a period of time. Turnaround is a measure of how long it takes to perform an operation. If you optimize latency and/or overhead, you can increase throughput and decrease turnaround time. On the other hand, if you create parallel processing, you can increase throughput without decreasing turnaround.
It depends on what you want to accomplish. If you want to decrease the resistance in a circuit, you would place the box in parallel to some other resistor. If you want to increase the resistance in a circuit, you would place the box in series.
the voltage across that resistor will increase if it is in series with the other resistors. the current through that resistor will increase if it is in parallel with the other resistors.
A: If put in series current will decrease if put in parallel current will increase assuming the input voltage remains the same