Q refers to charges. Charges are measured in coulombs.
CQ may be 7-chloro-4-hydroxyquinoline.
I don't know if this is what ur looking for but this is what I have Resistance or "Ohm's Law" V R I V=volts R=ohm or resistance I=Amperes Power E P t E=joules P=watts t= time in sec. Potential Difference E V Q E=joules V=volts Q=coulombs Current Q I t Q=coulombs I=Amperes t= time in sec.
Coulumbs law is applicable only for static fields that is when charges are stationary
The force between two charged particles.
newtons gravitational law is similar to that of coulomb's law...
Both are 'Inverse square' forces, f=k/r2 .
Limitations of coulombs law
No
Newtons law has to due with mass and ATTRACTION only Coulombs law has to due with charge and ATTRACTION AND REPULSION
I don't know if this is what ur looking for but this is what I have Resistance or "Ohm's Law" V R I V=volts R=ohm or resistance I=Amperes Power E P t E=joules P=watts t= time in sec. Potential Difference E V Q E=joules V=volts Q=coulombs Current Q I t Q=coulombs I=Amperes t= time in sec.
coulombs law
The main use of a Faraday is in the formula Q=nF. If this is rearranged, F=Q/n A Faraday is 96485 coulombs.
For a steady flow of charge through a surface, the current I in amperes can be calculated with the following equation:I = Q/t where Q is the electric charge transferred through the surface over some time t. If Q and t are measured in coulombs and seconds respectively, I is in amperes. Thus: I = 0.24 coulombs / 15 msec I = 0.24 coulombs / 15 * 10^-3 sec I = 16 amps
Coulumbs law is applicable only for static fields that is when charges are stationary
The force between two charged particles.
newtons gravitational law is similar to that of coulomb's law...
yes
Both are 'Inverse square' forces, f=k/r2 .