In general, the zero field point for opposite sign charges will be on the "outside" of the smaller magnitude charge. The zero field point for like sign charges will be between the charges, closer to the smaller charge (and in the middle for equal charges)..
Similarly, it is asked, at what distance from the charge is the net electric field zero?
Thus, the electric field is zero at the point 5.16 m to the left of the +2Q charge.
Subsequently, question is, at which point or points is the electric field zero? The Electric Field Is Zero Somewhere On The X Axis To The Left Of The +4q Charge.
In this manner, where is the electric field strongest between two point charges?
Electric fields around isolated charges - summary Look at the diagram below: close to the central charges, the field lines are close together. This is where the electric field is strongest. Further away from the central charges where the electric field is weaker, the field lines are more spread out from each other.
Is it possible to have a zero electric field value?
There is no zero-field point for a pair of equal-magnitude-but-opposite-sign charges. Electric field is zero in that point because the sum of electric field vectors have same intensity and direction, but are opposite. That point is halfway between two like charges.
Related Question Answers
Is electric potential zero when electric field is zero?
1. (a) No, just because the electric field is zero at a particular point, it does not necessarily mean that the electric potential is zero at that point. At the midpoint between the charges, the electric potential due to the charges is zero, but the electric field due to the charges at that same point is non-zero.What causes the electric field?
Electric fields are caused by electric charges, described by Gauss's law, or varying magnetic fields, described by Faraday's law of induction. Together, these laws are enough to define the behavior of the electric field as a function of charge repartition and magnetic field.Can electric field be negative?
Forces, velocities and also fields, including electric fields, are represented by vectors. A negative electric field just means: a field pointing/pushing opposite to what a positive field would do. Electric Field can never be negative . As electric field is Force experienced by charge divided by magnitude of charge .Is it possible to have a zero electric field value between a negative and positive?
Is it possible to have a zero electric field value between a negative and a positive charge along the line joining the two charges? Answer is c)No, a zero electric field cannot exist between the two charges.Where the electric field is strongest?
The direction of the field line at a point is the direction of the field at that point. The relative magnitude of the electric field is proportional to the density of the field lines. Where the field lines are close together the field is strongest; where the field lines are far apart the field is weakest.Where is the electric field greatest?
Electric field strength is greatest where the lines are closest together and weakest where lines are furthest apart.Why is electric field zero inside a conductor?
In electrostatics free charges in a good conductor reside only on the surface. So the free charge inside the conductor is zero. So the field in it is caused by charges on the surface. Since charges are of the same nature and distribution is UNIFORM, the electric fields cancel each other.Can two negative charges attract each other?
Is it possible for a positive and a negative charge to attract each other? Yes, they always attract. acquires a negative charge.Why can electric field lines never cross?
Electric field lines cannot cross. This is because they are, by definition, a line of constant potential. The equipotential at a given point in space can only have a single value. If lines for two different values of the potential were to cross, then they would no longer represent equipotential lines.Does electric field cancel out?
Therefore they cancel each other out and there is no resultant force. This means that the electric field directly between the charges cancels out in the middle.What determines the strength of an electric field?
The strength of an electric field as created by source charge Q is inversely related to square of the distance from the source. This is known as an inverse square law. Electric field strength is location dependent, and its magnitude decreases as the distance from a location to the source increases.Are electric fields always positive?
Electric Field can never be negative . As electric field is Force experienced by charge divided by magnitude of charge . Hence Electric Field also becomes positive . So , electric field is always positive .What is electric field example?
Examples of electric fields include the field produced in the dielectric of a parallel-plate capacitor (which creates an electrostatic field) and the electromagnetic wave produced by a radio broadcast monopole antenna (which creates a time-varying field).Is electric potential A vector?
The electric potential V is a scalar and has no direction, whereas the electric field E is a vector. To find the voltage due to a combination of point charges, you add the individual voltages as numbers.What is the unit of electric field?
The SI units of the electric field are newtons per coulomb (N/C), or volts per meter (V/m).Is electric force in the same direction as electric field?
If the charge is positive, it will experience a force in the same direction as the field; if it is negative the force will be opposite to the field. When there is more than one charge in a region, the electric field lines will not be straight lines; they will curve in response to the different charges.At which point is the electric field zero for the two point charges shown?
The electric field is zero at two points along the x axis; one such point is to the right of the -2q charge and the other is to the left of the +4q charge.Is the electrostatic potential necessarily zero at a point where the electric field strength is zero?
When we give a charge to any hollow conductor then all the charge resides or come to the surface & hence electric field intensity is zero inside . But Electric Potential is not zero here. 
Emily Sparks 
