The simple answer: the potential at a point some distance, r from a monopole is
kQ / r,
where k is Coulumb's constant: 9.0E9
Q is the charge of the monopole
and r is the distance from the monopole. And how to get there: Since electric force is kq1q2/ r2, the electric field ( Force per charge) is kQ/r2. The voltage of a particle is defined to be the integral of the electric field with respects to r. Thus integrating you get the above equation.
Magnetic monopoles are hypothetical particles that are predicted to exist with isolated north or south magnetic poles. The first potential observation of a magnetic monopole was reported by Blas Cabrera in 1982, using a superconducting detector. However, further research is still ongoing to confirm their existence.
The variable that represents potential difference is V, which stands for voltage.
When an electron is exposed to a potential difference, it experiences a force that causes it to accelerate in the direction of the potential difference. This acceleration is due to the electric field created by the potential difference, which exerts a force on the electron, causing it to move.
The relationship between potential difference and capacitance in a capacitor is that the potential difference across a capacitor is directly proportional to its capacitance. This means that as the capacitance of a capacitor increases, the potential difference across it also increases, and vice versa.
Potential difference is a synonym for voltage difference.
The simple answer: the potential at a point some distance, r from a monopole is kQ / r, where k is Coulumb's constant: 9.0E9 Q is the charge of the monopole and r is the distance from the monopole. And how to get there: Since electric force is kq1q2/ r2, the electric field ( Force per charge) is kQ/r2. The voltage of a particle is defined to be the integral of the electric field with respects to r. Thus integrating you get the above equation.
The radiation resistance of quarter wave monopole is 36.5 ohms
Magnetic monopoles are hypothetical particles that are predicted to exist with isolated north or south magnetic poles. The first potential observation of a magnetic monopole was reported by Blas Cabrera in 1982, using a superconducting detector. However, further research is still ongoing to confirm their existence.
The variable that represents potential difference is V, which stands for voltage.
There is no such thing as a 'voltage difference'! 'Voltage' means 'potential difference', so what you appear to be asking is "How do you get the largest potential difference difference?'! Potential difference is caused by the separation of charges between two points. The greater the amount of charge separation, the greater the potential difference.
Potential difference.
'Force' isn't measured in volts. Potential and potential difference are measured in volts.
The abbreviation of potential difference is V, which stands for voltage.
Anything with potential difference could create the flow of energy. A potential difference could be electropotential, chemical potential or potential difference between high and low ground like energy from water fall. A potential difference can exist in the form of motion difference between a stationary and a moving objects.
The unit for electric potential difference is the volt (V).
Unless you are using 'potential' in the general sense (i.e. "What is the possible voltage?"), there is no such engineering term as 'potential voltage'. Voltage is a synonym for 'potential difference', so your expression would then mean "What is the potential potential difference?"Do not mix up 'potential' with 'potential difference' (voltage); they are two different things.
A Volt meter is used to measure potential difference (a.k.a. voltage). Potential difference is measured in units called: Volts (V).