If you add more batteries in series, the voltage would increase. This would drastically change the circuit. Normally this should also produce more current.
The effect of adding more batteries in parallel is insignificant for many circuits. Adding more batteries in parallel is like lowering a battery's internal resistance - which, for many circuits, can be neglected.
Example: The battery's internal resistance can be neglected; the battery gives a voltage of 12 volt, you connect it to a resistance of 2 ohm. According to Ohm's law, that will give you a current of 6 ampere. Note that the battery capacity does not enter the calculation! Adding a second battery (of the same kind) will produce the same voltage, thus, the same current.
If you add more batteries in series, the voltage would increase. This would drastically change the circuit. Normally this should also produce more current.
The effect of adding more batteries in parallel is insignificant for many circuits. Adding more batteries in parallel is like lowering a battery's internal resistance - which, for many circuits, can be neglected.
Example: The battery's internal resistance can be neglected; the battery gives a voltage of 12 volt, you connect it to a resistance of 2 ohm. According to Ohm's law, that will give you a current of 6 ampere. Note that the battery capacity does not enter the calculation! Adding a second battery (of the same kind) will produce the same voltage, thus, the same current.
If you add more batteries in series, the voltage would increase. This would drastically change the circuit. Normally this should also produce more current.
The effect of adding more batteries in parallel is insignificant for many circuits. Adding more batteries in parallel is like lowering a battery's internal resistance - which, for many circuits, can be neglected.
Example: The battery's internal resistance can be neglected; the battery gives a voltage of 12 volt, you connect it to a resistance of 2 ohm. According to Ohm's law, that will give you a current of 6 ampere. Note that the battery capacity does not enter the calculation! Adding a second battery (of the same kind) will produce the same voltage, thus, the same current.
If you add more batteries in series, the voltage would increase. This would drastically change the circuit. Normally this should also produce more current.
The effect of adding more batteries in parallel is insignificant for many circuits. Adding more batteries in parallel is like lowering a battery's internal resistance - which, for many circuits, can be neglected.
Example: The battery's internal resistance can be neglected; the battery gives a voltage of 12 volt, you connect it to a resistance of 2 ohm. According to Ohm's law, that will give you a current of 6 ampere. Note that the battery capacity does not enter the calculation! Adding a second battery (of the same kind) will produce the same voltage, thus, the same current.
If you add more batteries in series, the voltage would increase. This would drastically change the circuit. Normally this should also produce more current.
The effect of adding more batteries in parallel is insignificant for many circuits. Adding more batteries in parallel is like lowering a battery's internal resistance - which, for many circuits, can be neglected.
Example: The battery's internal resistance can be neglected; the battery gives a voltage of 12 volt, you connect it to a resistance of 2 ohm. According to Ohm's law, that will give you a current of 6 ampere. Note that the battery capacity does not enter the calculation! Adding a second battery (of the same kind) will produce the same voltage, thus, the same current.
No,
because- in a circuit have a ability to tkae a current as it require to perform its operation
akash dandge
Circuits are not made of voltages, they are made of loops. A short circuit exists when a connection is added that is not supposed to be part of the intended circuit as designed. This added connection produces extra loops in the circuit that typically prevent current from reaching parts of the circuit where it is needed and can cause excessive current to flow in other parts of the circuit, resulting in damage to the components in the circuit.
We did this experiment in class, the more batteries added, the brighter the bulb will become!
Because the current is a flow of electrons, and those aren't created or destroyed.The number of electrons that start out from one battery terminal is the samenumber of electrons that eventually return to the battery's other terminal, afterthe current has been all around the circuit. They're not necessarily the sameelectrons, but the number of them is the same at both ends of the circuit, afternone have been lost and no extra ones have jumped aboard along the way.
because of the inductance associated with the circuit, it takes time to establish magnetic fields around all the wires and whatnot. This requires extra current at startup.
this depends on 1. whether the extra bulbs are being connected in parallel circuit or in series with each other, and 2. the power rating of the battery. supposing the battery power rating is greater than all the individual bulbs put together, the bulbs will glow the same maximum intensity if they are connected in parallel, and will become dimmer if connected end to end i.e in series.
extra resistance is added in order to decrease starting current and improve starting torque
Circuits are not made of voltages, they are made of loops. A short circuit exists when a connection is added that is not supposed to be part of the intended circuit as designed. This added connection produces extra loops in the circuit that typically prevent current from reaching parts of the circuit where it is needed and can cause excessive current to flow in other parts of the circuit, resulting in damage to the components in the circuit.
We did this experiment in class, the more batteries added, the brighter the bulb will become!
No such circuit exists.
Of course you can. But it would have to be on a dedicated circuit and not be connected to the cars electrical system.
There is no difference of magnitude to be considered the end product is the same.
A: Adding any resistance bulbs or whatever in a series circuit will reduce current and will reduce total power. In this case the bulb will glow dimmer as any additional bulbs are placed in the series circuit. this is true if the same input source is kept constant.
Making the important assumption that each bulb is equal in electrical resistance, the current will increase proportionally to the number of bulbs added (until the current limit of the battery is reached, that is). Clarification ... The current through the bulbs that were already there doesn't change, but the newcomer-bulbs add to the total current from the battery or power supply.
A D cell battery supplies nominally 1.5V. Connecting a 6V supply in it's place would supply an extra 4.5V and could potentially damage the circuit components.
One of the parallel circuit focal points is that it guarantees all parts of the circuit have the same voltage as the source. Case in point, the second or each extra light added to the circuit would have the same shine.
Because the current is a flow of electrons, and those aren't created or destroyed.The number of electrons that start out from one battery terminal is the samenumber of electrons that eventually return to the battery's other terminal, afterthe current has been all around the circuit. They're not necessarily the sameelectrons, but the number of them is the same at both ends of the circuit, afternone have been lost and no extra ones have jumped aboard along the way.
"Blowing" FusesYou don't say which fuse, but since the issue is related to "backing up" I suspect that it is the fuse for the backup lamp circuit. If that's the case, then it is caused by one of two things:There is a "short circuit" condition in the wiring circuit for the backup lamp circuit, orYou have added some power "extra" using device(s) to that circuit which causes the current draw [measured in Amperes (Amps)] to be more than the circuit and its protecting fuse were designed to carry.