If you connect two transistors parallel it will heat up and be damaged.
You cannot connect transformers of different voltage in parallel. This is because circulating currents will be set up between the two transformers that may exceed their rated currents.
In order to connect 4-6 volt batteries and end up with 12volts you will need to understand parallel and series connections. to connect two batteries in parallel you would connect the positive side of one battery to the positive side of the other battery; and the negative side of one battery to the negative of the other battery. doing this will not change the voltage. to connect in series you connect the positive of one battery to the negative of the other battery. doing this will increase the voltage;in this example you will end up with 12v. 6+6=12. when you stack batteries in a 2-cell flashlight that is connecting the batteries in series. The answer to the question is: connect two batteries in series; then connect the other two batteries in series. after this is done connect the two pairs of batteries in parallel. If you think of it visually you would have two batteries wide and two batteries tall.
BATTERY + - | | | | | ----------------------LED-----------LED---------LED---------LED------------ | | | | | | | | | | | | | | | | | | ------------------------------------------------------------------------------------------ No the above is a series circuit it would also need a ballast resistor so not to cook your LED's. This is a parallel circuit- +---------- ---- ---- ---- | | | | LED LED LED LED | | | | - ---------- ---- ---- ---- It is best to give each LED its own resistor.(not shown) For some reason when I click save it removes the spaces, ASCII characters have never been good for representing circuit diagrams.
any stabilizer has input and out put terminals . if the question is connecting two stabilizers for one single source ac input then they can connect in . but the question is connecting their out puts in parallel is job of skilled electrician because one has to check up lot many things .so not to dare to connect out put in parallel unless one knows the skill and knowledge of electrician at least.
You can connect 4 resistors in series-parallel, i.e. two in series, both in parallel with another two, and the effective resistance would be the same as one resistor. Similarly, you can connect nine resistors in 3x3 series-parallel, or 16 resistors in 4x4 series-parallel, etc. to get the same resistance of one resistor.
yes two resistors can connect both in series and parallel because when you connect two resistors in a closed loop, the same intensity of current flows across them and also they are connected to the same nodes which are the conditions for series and parallel connections respectively.
it means that two straight lines that will never connect
amps
You cannot connect transformers of different voltage in parallel. This is because circulating currents will be set up between the two transformers that may exceed their rated currents.
False.
You would connect two 12-v batteries in series to get 24 Volts, but if you have four, you can connect two sets of batteries in parallel and then connect the two sets of parallel batteries in series, giving you 24 volts with twice the ampere-hour capacity (four batteries rather than two).
4 ohms, nominal.
oldhamn copuling was used
A parallel circuit is realized by connecting two elements to the same nodes so the potential difference across their terminals can be the same.
If more ampere-hours (or CCA) are required, two (or more) new and identical 12-volt batteries can be connected in parallel. If you connect two 12-volt batteries in parallel, and they are identical in type, age and capacity, you can potentially double you original capacity. If you connect two that are not the same type, you will either overcharge the smaller of the two, or you will undercharge the larger of the two. Connect them in parallel, that is + to + and - to -.
no they do not. For example, draw two parallel horizontal lines. Make the top one twice as long as the bottom. You can still connect them and they remain parallel sides of a quadralateral.
In order to connect 4-6 volt batteries and end up with 12volts you will need to understand parallel and series connections. to connect two batteries in parallel you would connect the positive side of one battery to the positive side of the other battery; and the negative side of one battery to the negative of the other battery. doing this will not change the voltage. to connect in series you connect the positive of one battery to the negative of the other battery. doing this will increase the voltage;in this example you will end up with 12v. 6+6=12. when you stack batteries in a 2-cell flashlight that is connecting the batteries in series. The answer to the question is: connect two batteries in series; then connect the other two batteries in series. after this is done connect the two pairs of batteries in parallel. If you think of it visually you would have two batteries wide and two batteries tall.