If the current is stronger then the bulb will be brighter.
The reading is much easier when you sit under the brighter bulb.
u see the light bulbs on a series circuit's brightness evolves and the brightness on a parallel's circuit dont
number and voltage of the cells in the circuit resistance of each bulb
-- If the bulbs are in parallel, then the addition of a bulb has no effect on the brightness of those that were there before. -- If the bulbs are in series, then the addition of a bulb causes the brightness of those that were there before to decrease. (And I wasn't even there when you did the experiment !)
A series connection will not work if one bulb fuses but in a parallel connection if one bulb fuses the rest will stay lit.
The reading is much easier when you sit under the brighter bulb.
If the current is stronger then the bulb will be brighter.The reading is much easier when you sit under the brighter bulb.
You alter the brightness of a bulb by changing the voltage or frequency that is applied to the bulb.
A pencil has nothing to do with the brightness of a light bulb.
The bulb is dim.Because,the voltage is drops in series connection so you add more bulbs in series the last bulb got low voltage that reason for the bulb is dim
The brightness of a light bulb directly has no direct relationship with magnets and wire. The bulbs brightness is determined by the wattage of the bulb. The higher the wattage of the bulb the brighter the bulbs light output.
u see the light bulbs on a series circuit's brightness evolves and the brightness on a parallel's circuit dont
Bulb brightness is measured in lumens which express the amount of light produced, while the electric power used is measured in watts. The typical efficiency of some different types of bulb is: Incandescent 12 lumens per watt Halogen 17 lumens per watt CFL (compact fluorescent) 50-60 lumens/watt LED (light-emitting diodes) 90-100 lumens/watt.
brightness
If the bulb is of the incandescent variety, then reducing the current in the circuit will do this.
The brightness of a bulb would not change if you added a second bulb in parallel with the first.Unless, of course, the increased current exceeded the power supply's capacity causing a reduction in voltage.
It all depends on where you are reading the voltage. If you are reading it at the bulb, then every time the light turns on, the current that it is drawing will cause the voltage to drop slightly due to resistence in the line from the battery and the corresponding voltage drop to the bulb. If there is a very large drop, there could be a short in the line with that bulb. The bulb would not get full brightness then.