That depends on the thickness of each wire, the angle at which they cross,
the distance between them where they cross, and the nature of any material
in the space between the conductors. Sadly, none of that information appears
in the question.
A gimmick is a small capacitor built by twisting two wires together. You adjust the capacitance by changing the number of twists.
What is the capacitance of a twin copper wire?Read more:What_is_the_capacitance_of_a_twin_copper_wire
You can reduce stray capacitance by avoiding having long wires running parallel in circuits. Keep wires as short as possible. Long wires running along each other can exhibit stray capacitance effects. Another way is to cut long leads of components such as capacitors and inductors to make them as short as possible. If best, use SM components, as they have no leads which can cause this stray capacitance effect.
Stray capacitance is undesired capacitance. Any electronic component (wires, resistors, etc.) has SOME capacitance; at high frequencies, this can become significant, becoming a problem for circuit design.
Capacitance exists between any two conductors, current carrying or not.
Capacitance is an ability to store an electric charge. "If we consider two same conductors as capacitor,the capacitance will be small even the conductors are close together for long time." this effect is called Stray Capacitance.
YouCube - 2012 Crossing Wires 3-5 was released on: USA: 10 September 2012
Self capacitance refers to the capacitance between the touch sensor and the ground, while mutual capacitance refers to the capacitance between two different touch sensors. In capacitive touch technology, self capacitance is used for single-touch detection, while mutual capacitance is used for multi-touch detection.
You seem to be mixing up your terminology. There is no such thing as 'self-capacitance of an inductor'! If you know the frequency and equivalent capacitance for two capacitors, then you can find the equivalent capacitive reactance of the capacitors, but that's not what you seem to be asking! I suggest you rephrase the question.
Diffusion capacitance is the capacitance due to transport of charge carriers between two terminals of a device. - Amog This diffusion capacitance is due to depletion capacitance which is a function of forward bias applied to emitter junction of a transistor and due to diffusion capacitance which a function of transconductance of the transistor. Its value is 100 pF. Tirupanyam B.V
increase the capacitance of the capacitor by a factor of two. This is because capacitance is directly proportional to the area of the plates.
Capacitance