This is really a medical question, but it worries me that you're even asking. The answer is that depends on where the current is flowing. If it's across your chest, even a few milli-amperes can send your heart into cardiac arythmia, causing a heart attack ( or death by stupidity, as I'd say). If you want to play with electricity (and I do not like your playground), keep it below your waist. And if anyone even suggests using a regular wall plug, you should run immediately! I'm not kidding! That will burn you severely for sure, and probably kill you. Be careful.
Electric Current is neither scalar nor vector , since in electric current in a wire has both magnitude and direction but there is no meaning of triangle rule there. Also, since it gives the magnitude of charge flowing per unit time, it has nothing to do with direction.
Those having only magnitude but no direction are known as scalar quantity. Time, mass, work, power, electric current, electric charge, moment of inertia, magnetic flux, electric flux and so many are found to be scalar in this world.
A electric current produces a magnetic field
Electric current is a scalar.
electric current (alternating)
Increase the magnitude of the electric current.
The strength of a magnet(electromagnet) made by flowing electric current through a conducting coil depends on magnitude of current. . .
Nothing but magnitude. By millions of times.
It is impossible to separate the two. The voltage determines the magnitude of the current, and the current causes the damage. So, they are both responsible for electric shock.
Electric current, magnetic field intensity, length of the conductor, angle between the electric current and magnetic field
Electric Current is neither scalar nor vector , since in electric current in a wire has both magnitude and direction but there is no meaning of triangle rule there. Also, since it gives the magnitude of charge flowing per unit time, it has nothing to do with direction.
Those having only magnitude but no direction are known as scalar quantity. Time, mass, work, power, electric current, electric charge, moment of inertia, magnetic flux, electric flux and so many are found to be scalar in this world.
Resistance is the opposition to the flow of electric current through a conductor. It is defined as the ratio of the potential difference (volts) between the ends of the conductor to the magnitude of the current (amps) through the conductor.
The purpose of an ammeter is to sense and display the magnitude of the current flowing through it. When connected in series with a branch of an electrical circuit, the meter displays the magnitude (and direction) of the current in that path ... which you can't otherwise tell just by looking at the circuit.
Electric field is dependent on the magnitude of the electric charge, E = qzc/r2
The magnitude of the electric field is 2.5.
The magnitude of the electric field is 2.5.