This answer website does not have the ability to draw diagrams.
From the positive side of the battery connect it to one side of the switch.
From the other side of the switch connect it to the centre terminal of the first bulb's socket and then continue the wire to the centre terminal of the second bulb's socket.
From the negative side of the battery, connect a wire to the shell terminal of the first bulb's socket and then continue the wire to the shell terminal of the second bulb's socket.
When you turn the switch on the both lamps will glow.
I don't think that is possible, but I shall be interested to see someone prove me wrong.
Jimmy
Among the field lines generated by a circle current, the one which passes the center is not closed. --JF Hu
it has lots of windows which makes is good for natural light to enter instead of light bulbs... Open and closed windows instead of using air condistioner. thewindows are double glazed keeps heat inside of the building
You do not mention what you are using as the anode and cathode, but i would assume that given the green colour you are using copper or brass perhaps as the anode, and it is breaking down into a copper carbonate(which is green). By applying electrical current to the circuit you are speeding up the conversion of copper to copper carbonate(or similar).
A parallel circuit has more than one resistor (anything that uses electricity to do work) and gets its name from having multiple (parallel) paths to move along . Charges can move through any of several paths. If one of the items in the circuit is broken then no charge will move through that path, but other paths will continue to have charges flow through them. Parallel circuits are found in most household electrical wiring. This is done so that lights don't stop working just because you turned your TV off.Below is an animation of a parallel circuit where electrical energy is shown as gravitational potential energy (GPE). The greater the change in height, the more energy is used or the more work is done.The following rules apply to a parallel circuit:The potential drops of each branch equals the potential rise of the source.The total current is equal to the sum of the currents in the branches.The inverse of the total resistance of the circuit (also called effective resistance) is equal to the sum of the inverses of the individual resistances. One important thing to notice from this last equation is that the more branches you add to a parallel circuit (the more things you plug in) the lower the total resistance becomes. Remember that as the total resistance decreases, the total current increases. So, the more things you plug in, the more current has to flow through the wiring in the wall. That's why plugging too many things in to one electrical outlet can create a real fire hazard.
In a parallel circuit, each load added subtracts from total resistance. When one or more loads is removed from a parallel circuit, the total resistance is increased, reducing the total amperage draw. The less resistance a load has, the more current can pass through. This is part of Ohm's law. The mathematical equation that describes Ohm's law is: I=V/R , where I is the current in amperes, V is the potential difference in volts,and R is a circuit parameter called the resistance For example : The humble light-bulb is rated by the watts it uses. The amount of watts used by a light-bulb is calculated using Ohm's law. With the resistance of the bulb's filament and the voltage the bulb is designed to operate with, one can derive the amperage the bulb will draw. The amperage is then multiplied by the voltage to show wattage. Using Ohm's law : With the resistance of a 40watt 120volt light-bulb, only 0.33amps is able to pass through the bulb's 363ohm filament at 120volts. A lamp that has two 40watt bulbs inplace, and the two bulbs are in parallel, the circuit will have a resistance of 179ohms and draw 0.67amps which is 80watts at 120volts.
Could you build a working electric circuit using glass rods as the conductors? Why or why not?
A switch is a means of making (on) or breaking (off) an electrical circuit.
By using DPST(Double Pole Single Through) switch.
Using a switch device which starts and stops the electric current around the circuit
Probably down to a faulty switch, try bypassing the switch by using something metal (paper clip etc) to touch the conectors and complete the circuit while the car is hot enough that the fan should be on. If this solves it you need a new switch. If not look at thermostat?
whenever you pull the plug on a device that's running; when you have lights on and open a breaker, or light switch; when you burn out a fuse; anytime a device is operating (using power), and suddenly it stops, it has been open circuitted.
In North America, the use of a two pole single throw switch is used for this purpose. The reason that a two pole switch is used instead of a single pole switch is that code requires that both legs to the 240 volt load has to be broken so as to isolate the load completely from the supply voltage. If a single pole switch was used in this situation one leg of the 240 volt supply would still be "hot" to ground. Someone that is inexperienced with the system could get a nasty shock by just using the switch to isolate the circuit when working on it instead of using the supply breaker to isolate the circuit. In the UK it is a different scenario as the load across the 240 supply returns to a grounded neutral. In this case just a single pole single throw switch will isolate the circuit.
That factory has atrocious working conditions and should be closed down!
This circuit can switch on and off light a fan or a radio etc;by the sound of a clap This circuit is constructed using basic electronic component like resistor transistor relay transformer capacitor .This circuit turns on light for the first clap . the light turns on till the next clap .for the next clap turns off this circuit works with 12v voltage . therefore a step-cown transformer 12v/300ma is employed. The working of the circuit is based on amplifying nature of the transistor . switching the nature of transistor and relay as an electronic switch.
Electric switch is very important because as you known that all the equipment we are using is useless without a switch. For example, if someone want to turn on its computer, it have to first on the switch without switching on the power supply is not gone in the equipment we using.
it shows that somewhere on the tail lighting circuit there is some kind of a short circuit,one can test using a multimeter to find the probklem..
The bimetallic strip is made of two different metals, bonded together. The two metals have different temperature expansion coefficients, so when the bonded assembly is heated or cooled, it curves one way or the other, allowing a switch to be opened or closed.