With the naked eye they will all come on at the same time. Think of Christmas tree lights do they all come on together. It probably could be measured with an oscilloscope but I don't know.
They will all come on at the same time.
Think of the electrons in the wire as a very tight chain connected to your car while you are being towed. When the chain moves, every link in the chain moves and the car moves as well. Therefore when one electron (link in the chain) moves in the wire, they all move. Meaning every light will come on at the same time.
There are exceptions to this rule, but it would take too long to explain.
If there are three bulbs in a curcuit will they all glow the same brightness or will one be brighter than other?
In a parallel circuit each lamp receives the same voltage so the lamp with the highest wattage rating will glow the brightest providing they all have the same voltage rating.
SAME BRIGHT
The brightness of a star depends on the star's temperature, size, and distance from Earth.Distance on which you can see the stars.
Some are closer than others and some have more power and brightness.
The other stars do not appear as bright as the sun because they are much farther away. Even the closest stars apart from the sun are hundreds of thousands of times farther away. In terms of actual brightness, some stars are brighter than the sun.
Like the moon, all the planets get their apparent brightness by reflecting light towards us from the Sun. At some stages Mars is reflecting more light towards Earth, so it appears to be brighter. Also, sometimes it is closer than at other times, so it appears to reflect more light towards us.
The sun only appears brighter than other stars because it is much closer to us.
at like 1minute after each other.
In a parallel circuit, the brightness of the bulbs connected depends on their resistance and current flow, not their physical shape or size. The bulbs will have the same voltage across them, so if the long bulb has a lower resistance, it could be brighter but this depends on the specific characteristics of the bulbs.
A common reason is an issue with the headlight bulb itself, such as one bulb being newer or of higher wattage than the other. Other causes could include a wiring problem or a faulty headlight lens affecting the brightness. It's best to check the bulbs, wiring, and connections for any issues.
For the same real brightness, at a larger distance it would look less bright. On the other hand, you may have two stars that look like they are the same brightness, but one might be million times brighter (in real brightness) than the other - which would be compensated by the fact that the brighter star is a thousand times farther away.
The brightness of the lights may or may not change depending on the circuit in which they are wired. In a series circuit, all the bulbs (called lamps) will experience the same current flow. The same amount of current will be flowing through each one, and each one will be dropping some amount of voltage. If we remove some of the lamps and reconnect the circuit, the lamps will glow brighter because there is less total resistance in the circuit. The remaining lamps will end up dropping more voltage, and will glow brighter. In a parallel circuit, removing bulbs (or adding them) will not affect the operation of the other lamps in the circuit (providing the voltage source is adequate). We know that each of the lights in a household circuit is wired in parallel, and turning one or more on or off won't affect the operation (the brightness) of any other light that is on.
As a series circuit, as asked, all bulbs will go off because of that just one bulb.
2nd one...
Most likely the brighter light is newer. The other light has worn out and is way older then the other. If this bothers you then replace both lights with two bulbs of the same brand and made in the same year.
The brightness of a light bulb is related to its power. In all electrical circuits, power is equal to Voltage*Current. Since the two bulbs are connected in series, they must have equal current. The voltage across any given element in a series circuit is proportional to its resistance, so whichever bulb has the higher resistance has a higher voltage and thus higher power and is brighter.
Your settings on your iPod Touch are set to a lower brightness than other iPod Touches. Go to Settings, and then General, and sift through there (usually under 'display') and you should find brightness, and you can adjust the brightness of your iPod touch from there.
The brightness of a star depends on the star's temperature, size, and distance from Earth.Distance on which you can see the stars.
Some are closer than others and some have more power and brightness.