The electric field strength at a point in space is calculated using Coulomb's law for a point charge or by considering the superposition principle for multiple charges. Coulomb's law gives the electric field created by a single point charge, and the superposition principle allows you to calculate the electric field at a point due to multiple charges by adding up the contributions from each charge.
Electric Field due to a Point Charge (Coulomb's Law):
For a single point charge q located at a position r, the electric field (E) at a point P in space is given by Coulomb's law:
=
โ
2
โ
^
E=
r
2
kโ
q
โ
โ
r
^
Where:
E is the electric field strength at point P.
k is Coulomb's constant (
8.9875
ร
1
0
9
โ
N
โ
m
2
/
C
2
8.9875ร10
9
Nโ
m
2
/C
2
).
q is the magnitude of the point charge.
r is the distance from the point charge to point P.
^
r
^
is the unit vector pointing from the point charge to point P.
Electric Field due to Multiple Charges (Superposition Principle):
If you have multiple point charges
1
,
2
,
โฆ
,
q
1
โ
,q
2
โ
,โฆ,q
n
โ
located at positions
1
,
2
,
โฆ
,
r
1
โ
,r
2
โ
,โฆ,r
n
โ
, the net electric field at a point P due to all these charges is the vector sum of the individual electric fields:
net
=
1
+
2
+
โฆ
+
E
net
โ
=E
1
โ
+E
2
โ
+โฆ+E
n
โ
Where each individual electric field
E
i
โ
is calculated using Coulomb's law as described above.
For continuous charge distributions, like a charged rod, a charged plane, or any other continuous shape, you can use integration to calculate the electric field at a point by summing up the contributions from infinitesimal charge elements.
Remember that electric field is a vector quantity, meaning it has both magnitude and direction. The direction of the electric field at a point is always radially outward from a positive charge and radially inward toward a negative charge.
Keep in mind that the above equations apply in vacuum. If the medium between charges has a permittivity different from vacuum (like in a dielectric material), you would need to modify the equations accordingly.