The area of the sheets, the distance between them, and the material between them.
Capacitance is dependent on the size of the plates, the distance between them, and, to a lessor effect, the dielectric separating them.
area of the plates.
distance between the plates.
the dielectric constant
The factors that determine capacitance are the area of the plates, distance separating the plates, and the dielectric constant of the materials.
same as decade resitance box but instead of reitances there wil be capacitances
The voltage distribution across insulator strings is not equal, this because exist capacitances beteween insulators and tower and between insulators and conductor. So how i can calculate the stray capacitances across insulator strings?
For capacitors connected in parallel the total capacitance is the sum of all the individual capacitances. The total capacitance of the circuit may by calculated using the formula: where all capacitances are in the same units.
When capacitors are connected in parallel, the total capacitance in the circuit in which they are connected is the sum of both capacitances. Capacitors in parallel add like resistors in series, while capacitors in series add like resistors in parallel.
Parasitic capacitances form across every depletion region there's also a capacitance between the conductive leads to the terminals. For simplicity they are usually just lumped to each of the terminals of the transistor. Gate, Drain, Source and Substrate. If substrate is shorted to source creating typical 3 terminal representation then that half of those parasitic capacitances combine and Css (source-substrate) = 0. Cgd Cgs Cds (primarily from drain to substrate, not drain to source)
same as decade resitance box but instead of reitances there wil be capacitances
The voltage distribution across insulator strings is not equal, this because exist capacitances beteween insulators and tower and between insulators and conductor. So how i can calculate the stray capacitances across insulator strings?
For capacitors connected in parallel the total capacitance is the sum of all the individual capacitances. The total capacitance of the circuit may by calculated using the formula: where all capacitances are in the same units.
Since the total capacitance for capacitors in parallel is the sum of the individual capacitances. I'm sure that you can work it out for yourself!
inductance
The best way is to use an EM solver, such as FastCap from MIT. Numerous published papers also describe the best-fit formulae to calculate fringing capacitances by hand. Try reading "Modeling of interconnect capacitance, delay , and crosstalk in VLSI," by Wong et al., IEEE Trans. Semi. Manufacturing, v13, n1, February 2000, pp108, and the references therein.
When capacitors are connected in parallel, the total capacitance in the circuit in which they are connected is the sum of both capacitances. Capacitors in parallel add like resistors in series, while capacitors in series add like resistors in parallel.
Parasitic capacitances form across every depletion region there's also a capacitance between the conductive leads to the terminals. For simplicity they are usually just lumped to each of the terminals of the transistor. Gate, Drain, Source and Substrate. If substrate is shorted to source creating typical 3 terminal representation then that half of those parasitic capacitances combine and Css (source-substrate) = 0. Cgd Cgs Cds (primarily from drain to substrate, not drain to source)
The capacitance counter acts the inductivity (decreases it) without impacting the resistivivity, thus increasing the power factor, or resistivity / inductivity ratio.
The major factor affecting the amount of water vapour is temperature.
what are the factors affecting the assessment of materiality
Factors affecting dividend decisions