Assuming that your voltage is 120 volts the maximum wattage on that circuit is W = A x V = 15 x 120 = 1800 watts. Code only allows circuits to be loaded up to 80% capacity. 1800 x .8 = 1440. 1440/25 = 57 lamps.
Assuming that your voltage is 240 volts the maximum wattage on that circuit is W = A x V = 15 x 240 = 3600 watts. If the question is from a 240 volt country you will have to find out what the local electrical regulations are for circuit loading.
It is very beneficial to have a parallel circuit... for example: 1. If one light in a parallel circuit goes out, the other light bulbs will remain lit Whereas if a light in a series circuit goes out, all bulbs will go out 2. If not all light bulbs are needed on, you can turn them off with the remaining light bulbs staying on
Wiring bulbs in a series is useful in certain applications. For example decorated lighting on holiday trees using multiple bulbs on a single circuit. This is useful by keeping the circuit linear and simple and allows for a single switch. The disadvantages to having multiple bulbs on a linear circuit is that if one bad bulb turns off the whole circuit.
Anytime you ask electricity to do anything for you. Turn on light bulbs, start a car, run ann engine, watch TV. Anytime electrical power is used.
it can be either, depending on parts used in the circuit and their connections.
The power consumption of the led is very low and the life of LED bulb is high. Hence LED's are used as cost saving and energy saving measure and not hte conventional incadscant indicator bulbs. ...
parallel
If your reference to bulbs is light bulbs then yes they can be mixed. The led lamps have to be ballasted to use them in home lighting.
On 120 volts seven could be used, on 240 v fourteen of them.
Don't understand the question fully but halogen bulbs can replace incandescent bulbs and is 30% brighter for the same electrical power.
Yes you would use a serial circuit You would use parallel circuit lights for a Christmas tree because if you used series circuit lights, and one of the bulb blows, the rest of the bulbs will go out. But with parallel circuit lights, if one bulb blows the rest of the bulbs will remain their brightness.
fuse position rating circuit protected 1 10amp power mirror 2 10amp airbag system/blower relay 3 15amp parking lamps 4 15amp left headlamp 5 10amp on board diagnostic II sys 6 not used 7 10amp illumination sys 8 15amp right headlamp/fog lamp sys 9 10amp ABS sys 10 10amp speed control/GEM sys/brake interlock 11 10amp warning lamps 12 10amp front washer sys 13 15amp PCM/stop lamps/4wd/ABS/speed cont 14 10/20amp ABS sys 15 15amp airbag sys/alternator 16 30amp front wiper 17 30amp cigar lighter 18 15amp A/C sys 19 25amp ignition coil/PCM sys 20 10amp radio/GEMsys/anti-theft 21 15amp hazard lamps 22 15amp turn signals 23 not used 24 15amp starter relay/anti-theft 25 10amp speedometer/GEM sys 26 15amp A4LDE trans/bck up lamps/DRL sys 27 15amp underhood LP/maplights/glove box lamp dome lamp/visor lamps/4x4 sys 28 10amp GEM sys 29 15amp audio sys 30 not used 31 not used 32 not used 33 20amp high beam lamps 34 not used
fuse position rating circuit protected 1 10amp power mirror 2 10amp airbag system/blower relay 3 15amp parking lamps 4 15amp left headlamp 5 10amp on board diagnostic II sys 6 not used 7 10amp illumination sys 8 15amp right headlamp/fog lamp sys 9 10amp ABS sys 10 10amp speed control/GEM sys/brake interlock 11 10amp warning lamps 12 10amp front washer sys 13 15amp PCM/stop lamps/4wd/ABS/speed cont 14 10/20amp ABS sys 15 15amp airbag sys/alternator 16 30amp front wiper 17 30amp cigar lighter 18 15amp A/C sys 19 25amp ignition coil/PCM sys 20 10amp radio/GEMsys/anti-theft 21 15amp hazard lamps 22 15amp turn signals 23 not used 24 15amp starter relay/anti-theft 25 10amp speedometer/GEM sys 26 15amp A4LDE trans/bck up lamps/DRL sys 27 15amp underhood LP/maplights/glove box lamp dome lamp/visor lamps/4x4 sys 28 10amp GEM sys 29 15amp audio sys 30 not used 31 not used 32 not used 33 20amp high beam lamps 34 not used
Circuit diagrams, also known as electric diagrams, show the inside of their circuitry. It's mostly used to explain how the basics of circuitry work or how light bulbs light up.
components
It is very beneficial to have a parallel circuit... for example: 1. If one light in a parallel circuit goes out, the other light bulbs will remain lit Whereas if a light in a series circuit goes out, all bulbs will go out 2. If not all light bulbs are needed on, you can turn them off with the remaining light bulbs staying on
The purpose of light in a circuit is to convert electrical energy into light energy, which is then used for illumination or signaling purposes. Light bulbs and LEDs are common components used for this purpose in circuits.
Wiring bulbs in a series is useful in certain applications. For example decorated lighting on holiday trees using multiple bulbs on a single circuit. This is useful by keeping the circuit linear and simple and allows for a single switch. The disadvantages to having multiple bulbs on a linear circuit is that if one bad bulb turns off the whole circuit.