If you add more cells in series with the bulbs, the current will increase as the voltage across the bulbs increases.
If you add more cells in parallel with the bulbs, the current will stay the same because the voltage of the cells does not increase when they are added in parallel.
Nothing if the current capacity of the circuit is not exceeded. The extra bulb will draw more current and if the limit is not reached all bulbs will continue at their rated brightness. If the current capacity is overrdrawn either the circuit breakeer will break and stop all lights or if the capacity is not fused all lights will dim.
Increasing the number of dry cells in an electromagnet increases the strength of the magnetic field produced. This is because the increased voltage from the additional cells leads to a higher current flowing through the electromagnet, strengthening its magnetic force.
Volta got an electric current when he connected the cells in a circuit because the cells produced a potential difference, or voltage, which created an electric field that allowed a flow of electrons to move through the circuit. This flow of electrons is what we call an electric current.
Photons of light (energy) are absorbed by the silicon atoms of the solar panel, resulting in an ejection of electrons proportional to the frequency of the photons absorbed. This is called the photoelectric effect. As a large number of electrons are being ejected from atoms and set into motion, this generates an electric current. It is this electric current that can be used to power devices.
Alessandro Volta increased the current produced by his battery by connecting multiple voltaic cells in series. This increased the voltage output, which in turn increased the current. By adding more voltaic cells, he was able to boost the overall current output of the battery.
The Old Cells Die And A Number Of News Cells Are replaces by them.
it devides into the number of there cell
They double
Well, honey, let me break it down for you. The number of cells in a circuit directly affects the voltage, not the current. Current is determined by the resistance in the circuit and the voltage supplied by the cells. So, more cells mean more voltage, which can potentially increase the current flowing through the circuit.
YESAnswerNot necessarily. The current depends on the potential difference and the load resistance. If you connect cells in parallel, you do not effect its voltage or the load, so the current is unaffected (although the battery's current 'capacity' will increase). If you connect the cells in series, then you will increase the voltage and the current will increase.
The number of chromosomes doubles in comparison to the sex cells.
One property of metal that makes it a good material for connecting to cells and bulbs is its high electrical conductivity. Metals such as copper and silver have low resistance to the flow of electricity, making them efficient conductors. This allows for easy and reliable transfer of electrical energy between the power source, cells, and bulbs in a circuit.
Nothing if the current capacity of the circuit is not exceeded. The extra bulb will draw more current and if the limit is not reached all bulbs will continue at their rated brightness. If the current capacity is overrdrawn either the circuit breakeer will break and stop all lights or if the capacity is not fused all lights will dim.
Number of bacterial cells is doubles .
decrease
by adding resistance in parallel more current is bound to flow
The number of RBC will increase