the main point is that.... by increasing of voltage the current will be increase...not by increasing of current voltage is increase....in that way we write that V is directly proportional to I...
No. Ohm's law relates voltage, current and resistance: V=IR. ("I" is the symbol for current.)
I'm not quite sure what context you mean. V=IR to explain this in words you would simply say the voltage (V) of a circuit would be equal to the current (I) multiplied by the resistance(R). a practical example could be, if the resistance in a circuit was 2 and the current was 12 what is the voltage? well using Ohms law we would simply do (2 * 12) the voltage would be 24. [note, i do not know if that would work in real life it's just a example using numbers] you can aslo rearrange V=IR to work out how to calculate current and resistance V=IR I = V/R. Current equals votlage divided by resistance R=V/I. Resistance equals voltage divided by current hope this helps
Take a look at Ohm's Law, usually written as V=IR. Solving for current: I = V/R. That means that a lower resistance will result in a larger current.
Momentum equals mass times velocity, it is sometimes written as p=m*v.
G=i/r V=ir So V=i/g G=i/v
x/r=v x=vr
Some say so.
Yes, when you read vr aloud you can shorten it to v of r.
V. Baravykas has written: 'Trumpas mokyklinis anglu-lietuviu ir lietuviu-anglu kalbu zodynas ...' 'Lithuanian - English Dictionary'
It usually represents current in amps as in the equation V=IR (volts equals current times resistance)
Ohm's law - some times also represented as V = IR, where V is the Voltage, I is the Current and R being the Resistant (Constant). The law states that the current is directly proportional to the potential difference (voltage) across the two points. i.e. "I" is proportional to "V"
Yes, when you read vr aloud you can shorten it to v of r.
Yes, when you read vr aloud you can shorten it to v of r.
Yes, when you read vr aloud you can shorten it to v of r.
Yes you can... and its handy for solving Kirchoff's law mesh equations[V] = [R].[I] (that's [R].[I], remember order is important when multiplying matrices)
V=ir
No. Ohm's law relates voltage, current and resistance: V=IR. ("I" is the symbol for current.)