Connect it in Parallel.
The resistors should be connected in parallel .
To increase (or decrease) the current (ampere) of a supply several methods can be used: 1) For an AC supply use a transfromer. 2) For a DC supply use a DC regulator, or switched mode regulator In either case the conservation of energy law must be maintained. Meaning you get as much energy out as you put in. In other words if you increase the current the voltage must decrease but the power will stay the same (for a perfect conversion).
Overall brightness (not individual bulbs' brightness) will increase when we connect them in parallel & it will decrease when we connect them in series.
Resistances in series act just as if they were one single resistor. The value of the single resistor is the sum of the individual resistors connected in series ... Ra + Rb + Rc etc. When several resistors are in series, the effective total is greater than the biggest one. Resistance in parallel act just as if they were one single resistor. The reciprocal of the value of the single resistor is the sum of the reciprocals of the individual resistors connected in parallel ... Total effective resistance = 1 divided by (1/Ra + 1/Rb + 1/Rc + etc.) When several resistors are in parallel, the effective total is less than the smallest one. Once you figure out the effective value of the series- or parallel-combination of many resistors, you handle them as if they were one single resistor, and you can work with the voltage and current: Current through any resistance = (Voltage across it) divided by (its resistance).
when in series you can use this: R1+R2+R3+enz=you total resistance.and when in parallel you can use this: Req = 1 / (1/R1+1/R2+1/R3+1/R4+enz).If there are 2 resistors in parallel, use Product over sum: Req = R1*R2/(R1+R2).For 3 resistors, a little more tricky: Req = R1*R2*R3/(R1*R2 + R1*R3 + R2*R3). For more than 3, use the general formula above for a quantity of resistors in parallel.
The resistors should be connected in parallel .
To increase (or decrease) the current (ampere) of a supply several methods can be used: 1) For an AC supply use a transfromer. 2) For a DC supply use a DC regulator, or switched mode regulator In either case the conservation of energy law must be maintained. Meaning you get as much energy out as you put in. In other words if you increase the current the voltage must decrease but the power will stay the same (for a perfect conversion).
You can only connect to one router at a time ;)
Overall brightness (not individual bulbs' brightness) will increase when we connect them in parallel & it will decrease when we connect them in series.
The effective resistance of several resistors in series is the sum of the individual resistances.
As you are billed on the consumption of wattage and wattage is the product of amp times volts the answer to your question is yes. An increase in current will result in an increase in electrical consumption.Additional AnswerResidential consumers are billed on their energyconsumption (there is no such thing as 'electrical consumption' as 'electricity' is not a measurable quantity!), expressed in kilowatt hours.There may be several reasons for an increase in load current. For example, if the residential load has a low power factor, it will be drawing more current than necessary, but the energy consumed will be no different from if the load had a high power factor.So, for residential loads, an increase in load current doesn't necessarily mean a higher energy consumption.
you have several options. you can increase the current flowing through the wire you can increase the number of turns/length around the object
A router is only to distribute a source of digital data among several end users. It cannot increase connectivity speed. For home use, the most likely use is to connect several computers to an Internet connection, whether that be dial-up, DSL or cable.
There is no fixed limit. Packet switching basically allows several computers to connect simultaneously.There is no fixed limit. Packet switching basically allows several computers to connect simultaneously.There is no fixed limit. Packet switching basically allows several computers to connect simultaneously.There is no fixed limit. Packet switching basically allows several computers to connect simultaneously.
Multiplexing allows several users to share a single connection. For example, several computers at my home share a single ADSL line, to connect to Internet.Multiplexing allows several users to share a single connection. For example, several computers at my home share a single ADSL line, to connect to Internet.Multiplexing allows several users to share a single connection. For example, several computers at my home share a single ADSL line, to connect to Internet.Multiplexing allows several users to share a single connection. For example, several computers at my home share a single ADSL line, to connect to Internet.
it can do several things. it should be able to connect with the internet.
Resistances in series act just as if they were one single resistor. The value of the single resistor is the sum of the individual resistors connected in series ... Ra + Rb + Rc etc. When several resistors are in series, the effective total is greater than the biggest one. Resistance in parallel act just as if they were one single resistor. The reciprocal of the value of the single resistor is the sum of the reciprocals of the individual resistors connected in parallel ... Total effective resistance = 1 divided by (1/Ra + 1/Rb + 1/Rc + etc.) When several resistors are in parallel, the effective total is less than the smallest one. Once you figure out the effective value of the series- or parallel-combination of many resistors, you handle them as if they were one single resistor, and you can work with the voltage and current: Current through any resistance = (Voltage across it) divided by (its resistance).