Capacitance in a sentence

(1) Farad is a unit of electrical capacitance.

(2) The capacitance of the unit is 18 abfarad.

(3) The capacitance of the tool is 16 abfarad.

(4) The capacitance of the system is 9 abfarad.

(5) A microfarad is a small unit of capacitance.

(6) A farad is a very large unit of capacitance.

(7) The metric unit of capacitance is the farad.

(8) The capacitance of the circuit is 5 abfarad.

(9) The capacitance of the device is 20 abfarad.

(10) The capacitance of the system is 15 abfarad.

Capacitance sentence

(11) The capacitance of the module is 12 abfarad.

(12) We can use capacitance to store electricity.

(13) The capacitor has a capacitance of 10 farads.

(14) The measuring unit for capacitance is farads.

(15) The capacitance of the machine is 30 abfarad.

(16) The unit of measure for capacitance is farads.

(17) The physical unit of capacitance is the farad.

(18) The picofarad is a metric unit of capacitance.

(19) A picofarad is a very small capacitance value.

(20) The capacitance of the component is 8 abfarad.

Capacitance make sentence

(21) The capacitance of a diode is typically small.

(22) The microfarad is a metric unit of capacitance.

(23) The capacitance of the equipment is 25 abfarad.

(24) The capacitance of the instrument is 6 abfarad.

(25) The capacitance of the mechanism is 22 abfarad.

(26) The capacitance of the appliance is 14 abfarad.

(27) The capacitance of the mechanism is 28 abfarad.

(28) A picofarad is a very small unit of capacitance.

(29) Abfarad is a unit of measurement for capacitance.

(30) The measurement of the capacitance was in farads.

Sentence of capacitance

(31) A picofarad is a very small amount of capacitance.

(32) The capacitor has a capacitance of 10 microfarads.

(33) The measurement of the capacitance was inaccurate.

(34) The capacitor has a capacitance of 100 microfarads.

(35) The capacitance of a capacitor is measured in farads.

(36) The standard of measurement for capacitance is farad.

(37) The standard of measurement for capacitance is farads.

(38) The cgs unit of electric capacitance is the statfarad.

(39) The measuring unit for electric capacitance is farads.

(40) The circuit requires a capacitance of 100 microfarads.

Capacitance meaningful sentence

(41) The multimeters have a capacitance measurement feature.

(42) The gate current is influenced by the gate capacitance.

(43) Oh my, the interelectrode capacitance is off the charts!

(44) The capacitance of the capacitor is measured in abfarad.

(45) A picofarad is a unit of capacitance used in electronics.

(46) The farad is the physical unit for measuring capacitance.

(47) Litz wire is known for its low inductance and capacitance.

(48) The picofarad is one of the smallest units of capacitance.

(49) The multimeters have a capacitance measurement capability.

(50) The base-unit of measurement for capacitance is the farad.

Capacitance sentence examples

(51) The capacitance of the capacitor is measured in picofarad.

(52) The capacitance of a capacitor can be affected by humidity.

(53) The farad is used to measure the capacitance of capacitors.

(54) The mass unit for measuring electric capacitance is farads.

(55) The ceramic capacitor has a capacitance of 0.1 microfarads.

(56) The absolute-scale measurement of capacitance is in farads.

(57) The capacitor has a maximum capacitance of 500 microfarads.

(58) The capacitance of the capacitor is measured in picofarads.

(59) The capacitance of the capacitor is measured in microfarads.

(60) The gate current is affected by the gate-source capacitance.

Sentence with capacitance

(61) The capacitance of a capacitor can be measured using farads.

(62) The ampre is used to calculate the capacitance of a circuit.

(63) The capacitance value of the capacitor is 1,000 microfarads.

(64) The capacitor has a capacitance range of 10-100 microfarads.

(65) Capacitance is a fundamental property of electrical circuits.

(66) The capacitor is labeled with its capacitance in microfarads.

(67) The capacitance of the capacitor is marked as 47 microfarads.

(68) The input capacitance of the amplifier needs to be increased.

(69) The capacitor bank has a total capacitance of 500 microfarads.

(70) The capacitor bank has a total capacitance of 100 microfarads.

Use capacitance in a sentence

(71) The voltage applied to varactors determines their capacitance.

(72) The capacitance of varactors changes with the applied voltage.

(73) Farads are a unit of measurement used to quantify capacitance.

(74) The dielectric constant of a material affects its capacitance.

(75) The capacitance of the capacitor is marked as 220 microfarads.

(76) The dielectric constant affects the capacitance of a capacitor.

(77) Tf is the symbol for terafarad in electrical capacitance units.

(78) The picofarad is used to measure the capacitance of capacitors.

(79) The electrolytic capacitor has a capacitance of 50 microfarads.

(80) The ceramic capacitor is known for its high capacitance values.

Sentence using capacitance

(81) The capacitance of varactors can be adjusted over a wide range.

(82) The dielectrics in a capacitor determine its capacitance value.

(83) The capacitor has a capacitance range of 10 to 100 microfarads.

(84) The capacitance of the small capacitor is only a few picofarad.

(85) The fundamental units of capacitance are farads and microfarads.

(86) The circuit requires a capacitor with a capacitance of 5 farads.

(87) The capacitance of the small capacitor is only a few picofarads.

(88) The farad is a large unit compared to other units of capacitance.

(89) The capacitance of a typical capacitor is measured in picofarads.

(90) The fundamental unit of measurement for capacitance is the farad.

Capacitance example sentence

(91) The electrostatic unit is used in the measurement of capacitance.

(92) The digital multimeter can also measure capacitance and frequency.

(93) Capacitive reactance decreases as the capacitance value increases.

(94) The filter capacitor should have a capacitance of 220 microfarads.

(95) The absolute-scale capacitance of the capacitor is 50 microfarads.

(96) The capacitor's capacitance determines its ability to store charge.

(97) The word microfarad refers to a unit of capacitance in electronics.

(98) The farad is used in calculations involving capacitance and charge.

(99) The dielectrically polarized material exhibited a high capacitance.

(100) The filter capacitor should have a capacitance of 1000 microfarads.

Sentence with word capacitance

(101) Farads are used to compare the capacitance of different capacitors.

(102) The capacitance of an electrolytic capacitor is measured in farads.

(103) The 'farads' array is used to store and manipulate capacitance data.

(104) Capacitance is used in energy storage systems for electric vehicles.

(105) I use a digital multimeter to measure the capacitance of capacitors.

(106) The interelectrode capacitance affects the overall circuit behavior.

(107) The capacitance of varactors can be modulated by an external signal.

(108) The capacitance of a parallel plate capacitor is measured in farads.

(109) Applying a forward bias to a varactor diode changes its capacitance.

(110) The circuit requires a capacitor with a capacitance of 1 microfarad.

Sentence of capacitance

(111) A formula can help us find the capacitance of an electrical circuit.

(112) Surface mount capacitors are available in various capacitance values.

(113) The measuring unit for capacitance is commonly farads or microfarads.

(114) The interelectrode capacitance affects the performance of the device.

(115) The varactor is a type of diode that exhibits a variable capacitance.

(116) The capacitance of a capacitor is determined by the number of farads.

(117) The capacitance of a capacitor is denoted by the symbol F for farads.

(118) The capacitance of varactors can be controlled by applying a voltage.

(119) The 'varactors' in this array have a wide range of capacitance values.

(120) The capacitance of a capacitor can be affected by temperature changes.

Capacitance used in a sentence

(121) The interelectrode capacitance was verified using a capacitance meter.

(122) The capacitance of a capacitor can be increased by adding more plates.

(123) Applying a forward bias to the varactor diode changes its capacitance.

(124) The gate current is used to charge and discharge the gate capacitance.

(125) The interelectrode capacitance can be affected by temperature changes.

(126) The capacitance of varactors can be controlled by a DC voltage source.

(127) The capacitance of a capacitor can be increased by adding more farads.

(128) Varactors are electronic components that can change their capacitance.

(129) Capacitance is used in electronic filters to block certain frequencies.

(130) The capacitance of capacitors determines their ability to store charge.

Capacitance sentence in English

(131) The international standard for measuring electric capacitance is Farad.

(132) Electrostatic units are used to measure the capacitance of a capacitor.

(133) A bridge circuit can be used to measure the capacitance of a capacitor.

(134) The varactor diode is used in tuning circuits to change the capacitance.

(135) One advantage of an electrolytic capacitor is its high capacitance value.

(136) The capacitance of a capacitor can be measured using a capacitance meter.

(137) The interelectrode capacitance was minimized to reduce signal distortion.

(138) The microfarad is a common unit of capacitance in electrical engineering.

(139) The capacitance of varactors can be controlled digitally or analogically.

(140) The circuit requires a capacitor with a capacitance of 1,500 microfarads.

(141) The capacitance of the capacitor can be measured using a picofarad meter.

(142) The capacitance of the capacitor is usually expressed in picofarad units.

(143) The microfarad is a fundamental unit of capacitance in electrical systems.

(144) The capacitance of varactors can be adjusted by changing the bias voltage.

(145) The capacitance of varactors can be tuned for optimal circuit performance.

(146) The capacitance of varactors can be adjusted dynamically during operation.

(147) The capacitance of a capacitor can be converted from nanofarads to farads.

(148) The capacitance of a capacitor can be converted from picofarads to farads.

(149) The interelectrode capacitance can be reduced by using smaller electrodes.

(150) The electrostatic unit of capacitance is equal to 1.11265 x 10^-12 farads.

(151) Capacitors can be connected in series or parallel to increase capacitance.

(152) The gate electrode is carefully designed to minimize parasitic capacitance.

(153) The farad is a unit that is used to measure the capacitance of a capacitor.

(154) Many electronic components have capacitance values expressed in picofarads.

(155) The picofarad is a unit of capacitance commonly used in telecommunications.

(156) A picofarad is a very small unit of capacitance used in electronic devices.

(157) The interelectrode capacitance can be measured using an impedance analyzer.

(158) The capacitance of a capacitor can be converted from microfarads to farads.

(159) The capacitance of a capacitor can be converted from millifarads to farads.

(160) The capacitance of the capacitor can be increased by adding more picofarad.

(161) When capacitors are connected in series, their total capacitance decreases.

(162) The capacitance of a capacitor can be affected by temperature and humidity.

(163) The capacitors are connected in series, increasing the overall capacitance.

(164) The phase current is affected by the inductance and capacitance of the load.

(165) The interelectrode capacitance was calculated using the appropriate formula.

(166) The ceramic capacitor is available in various sizes and capacitance ratings.

(167) The electrolytic capacitor has a higher capacitance compared to other types.

(168) The capacitance value of an electrolytic capacitor is indicated on its body.

(169) The capacitance range of varactors can vary depending on the specific model.

(170) The capacitance of a cylindrical capacitor is typically expressed in farads.

(171) The capacitance of the capacitor can be adjusted from 1 to 1000 microfarads.

(172) The capacitance of the capacitor can be increased by adding more picofarads.

(173) The dielectric constant of a material affects the capacitance of a capacitor.

(174) The capacitance of a capacitor can affect the time constant of an RC circuit.

(175) Electron flow is influenced by the capacitance and inductance of the circuit.

(176) The measurement value of the capacitance of the capacitor was 10 microfarads.

(177) The capacitance of varactors can be fine-tuned for precise frequency control.

(178) The interelectrode capacitance affects the frequency response of the circuit.

(179) The electrical capacitance of a capacitor can be measured using a multimeter.

(180) When capacitors are connected in parallel, their total capacitance increases.

(181) The capacitance of the ceramic capacitor is typically measured in microfarads.

(182) The electrolytic capacitor is known for its compact size and high capacitance.

(183) The self-energy of a charged capacitor depends on its capacitance and voltage.

(184) The capacitance of varactors is inversely proportional to the applied voltage.

(185) The capacitance of varactors can be fine-tuned for precise frequency response.

(186) Electrolytic capacitors are known for their high capacitance and compact size.

(187) The farad is commonly used to measure the capacitance of electronic components.

(188) The reactance of a capacitor is directly proportional to the capacitance value.

(189) A bridge circuit can be used to measure the unknown capacitance of a capacitor.

(190) The picofarad is a unit of capacitance commonly used in electrical engineering.

(191) The capacitance of an electrolytic capacitor can vary depending on temperature.

(192) The interelectrode capacitance can be calculated using the appropriate formula.

(193) The interelectrode capacitance can be affected by the dielectric material used.

(194) The 'farads' array is an essential tool for calculating capacitance in circuits.

(195) The reactance of a capacitor is inversely proportional to the capacitance value.

(196) The circuit requires a capacitor with a capacitance of 50 microfarads or higher.

(197) The capacitor's microfarads rating should be verified using a capacitance meter.

(198) The interelectrode capacitance can be calculated using the appropriate formulas.

(199) The time constant of a capacitor is determined by its capacitance and resistance.

(200) The permittivity of a dielectric material affects the capacitance of a capacitor.

(201) The capacitance of a capacitor determines its ability to store electrical charge.

(202) The capacitance of a capacitor can be affected by the surface area of the plates.

(203) Capacitors with a capacitance of microfarads are commonly used in power supplies.

(204) The junction capacitance of photodiodes can affect their high-frequency response.

(205) It is necessary to analyze electrode capacitance for energy storage applications.

(206) The series-parallel configuration of capacitors enhances the overall capacitance.

(207) The capacitance of a capacitor is inversely proportional to the number of farads.

(208) The capacitance of the capacitor can be adjusted by changing the picofarad value.

(209) It is important to select the correct capacitance value for the ceramic capacitor.

(210) It is recommended to use a multimeter to test the ceramic capacitor's capacitance.

(211) The capacitance of a capacitor can be increased by adding more plates in parallel.

(212) Capacitance is used in touch-sensitive screens to detect the presence of a finger.

(213) The capacitance of a capacitor can be adjusted by changing the area of its plates.

(214) Capacitors with a capacitance of microfarads are commonly used in audio equipment.

(215) Capacitors with a capacitance of microfarads are commonly used in filter circuits.

(216) The interelectrode impedance can be affected by the presence of stray capacitance.

(217) The capacitance of varactors can be adjusted by changing the reverse bias voltage.

(218) The gate current is responsible for charging and discharging the gate capacitance.

(219) The capacitance meter was calibrated above the highest expected capacitance value.

(220) The capacitance of the capacitor is inversely proportional to the picofarad value.

(221) The capacitance of the capacitor is typically measured in microfarad or picofarad.

(222) The microfarad is a unit of capacitance that is commonly used in power electronics.

(223) Capacitors with a capacitance of microfarads are commonly used in lighting systems.

(224) The microfarad is a metric unit of capacitance that is used in scientific research.

(225) The capacitance of the electrolytic capacitor is typically measured in microfarads.

(226) The interelectrode capacitance can be increased by using larger electrode surfaces.

(227) The capacitance of varactors can be adjusted to control the frequency of a circuit.

(228) The interelectrode capacitance can be adjusted by changing the dielectric material.

(229) The capacitance of the capacitor can be expressed in terms of picofarads or farads.

(230) Increasing the distance between the plates of a capacitor decreases its capacitance.

(231) Capacitance is an important factor in determining the response time of touchscreens.

(232) Capacitance is a key parameter in determining the resonant frequency of LC circuits.

(233) Capacitors with a capacitance of microfarads are commonly used in computer circuits.

(234) The microfarad is a small unit of capacitance that is often used in sensor circuits.

(235) The farad is a unit that is used to compare the capacitance of different capacitors.

(236) The engineer will quantify the electrode's capacitance for efficient energy storage.

(237) The circuit element's capacitance determines its ability to store electrical charge.

(238) The interelectrode capacitance can affect the performance of the electronic circuit.

(239) The capacitance value of an electrolytic capacitor is usually indicated on its body.

(240) The capacitance of the capacitor is typically measured in microfarads or picofarads.

(241) The capacitance of the capacitor can be calculated using the formula for picofarads.

(242) Microfarads are often used to measure the capacitance of small electronic components.

(243) Capacitance is one of the key parameters in designing filters for electronic circuits.

(244) The microfarad is a standard unit of capacitance in the International System of Units.

(245) The microfarad is a small unit of capacitance that is often used in electronic design.

(246) The picofarad is often used to measure the capacitance of small electronic components.

(247) The capacitance meter needed calibration after being used on high capacitance samples.

(248) The capacitance of a varactor can be controlled by changing the voltage applied to it.

(249) The capacitance of the capacitor can be adjusted by changing the number of picofarads.

(250) The capacitance of the capacitor is directly proportional to the number of picofarads.

(251) The capacitance of a capacitor decreases as the distance between its plates increases.

(252) Dielectrics are used to reduce the effects of stray capacitance in electronic circuits.

(253) The gate current is influenced by the resistance and capacitance values in the circuit.

(254) The microfarad is a fundamental unit of capacitance that is used in electrical systems.

(255) The capacitance of a circuit element determines its ability to store electrical charge.

(256) The capacitance of the capacitor is inversely proportional to the number of picofarads.

(257) The tangent of an angle can be used to find the capacitance or inductance of a circuit.

(258) Capacitance is a property that allows capacitors to store and release electrical energy.

(259) Capacitance is an essential concept in understanding the behavior of transmission lines.

(260) The base unit of electric capacitance in the International System of Units is the farad.

(261) Capacitance plays a crucial role in smoothing out voltage fluctuations in power supplies.

(262) The capacitance of a capacitor can be influenced by the type of dielectric material used.

(263) Capacitors with a capacitance of microfarads are commonly used in motor control circuits.

(264) The microfarad is a standard unit of capacitance that is used in electronic calculations.

(265) Capacitors with a capacitance of microfarads are commonly used in automotive electronics.

(266) The capacitance in an electric circuit determines its ability to store electrical energy.

(267) The circuit requires a capacitor with a capacitance of 1 microfarad for proper operation.

(268) The permittivity of a dielectric material is often used in the calculation of capacitance.

(269) Capacitors can be connected in series or parallel to achieve different capacitance values.

(270) The microfarad is a useful unit for measuring the capacitance of small electronic devices.

(271) The microfarad is a unit of capacitance that is commonly used in electronic manufacturing.

(272) The electrotonic properties of a neuron can be altered by changes in membrane capacitance.

(273) If the interelectrode capacitance is too low, it may affect the performance of the device.

(274) The capacitance of a capacitor can be reduced by using a vacuum as the dielectric material.

(275) The capacitance in an electrical circuit determines the ability to store electrical charge.

(276) If the interelectrode insulation is too thick, it may affect the capacitance of the device.

(277) The electrostatic unit is used in calculations involving capacitance and electric potential.

(278) The natural frequency of a resonant circuit is determined by its inductance and capacitance.

(279) The interelectrode capacitance can be reduced by increasing the distance between electrodes.

(280) Let's calibrate below the maximum allowable capacitance for accurate impedance measurements.

(281) The capacitance of a capacitor can be measured using a capacitance meter or an oscilloscope.

(282) The electric potential of the charged capacitor is inversely proportional to its capacitance.

(283) The dielectric constant of a material can be used to calculate the capacitance of a capacitor.

(284) The capacitance of a capacitor can be decreased by increasing the distance between the plates.

(285) The capacitance of a capacitor can be increased by decreasing the distance between the plates.

(286) The capacitance of a capacitor can be decreased by increasing the distance between its plates.

(287) The capacitance of a capacitor can be decreased by using a lower dielectric constant material.

(288) The capacitances of the parallel capacitors were added together to find the total capacitance.

(289) The capacitance of a capacitor can be increased by using a larger surface area for its plates.

(290) The capacitance of a capacitor can be affected by the dielectric constant of the material used.

(291) The capacitance of a capacitor can be increased by using a higher dielectric constant material.

(292) The capacitor charging time is determined by the resistance and the capacitance in microfarads.

(293) The input capacitance of an instrumentation amplifier should be low to avoid signal distortion.

(294) The size of an electrolytic capacitor can vary depending on its capacitance and voltage rating.

(295) Electrolytic capacitors are commonly used in electronic circuits due to their high capacitance.

(296) The capacitor discharge time is determined by the resistance and the capacitance in microfarads.

(297) The capacitance range of varactors can vary from a few picofarads to several hundred picofarads.

(298) The microfarad is a metric unit that is used to measure the capacitance of electronic components.

(299) The microfarad is a small unit of capacitance that is often used in telecommunications equipment.

(300) The capacitance of a capacitor can be calculated by dividing the charge by the voltage in farads.

(301) The capacitance of the capacitor is determined by the distance between the plates in microfarads.

(302) The capacitance of the capacitor can be expressed in units of farads, microfarads, or picofarads.

(303) The capacitance of a capacitor can be increased by using a dielectric material between the plates.

(304) The circuit requires a capacitor with a capacitance of 1000 microfarads to handle high power loads.

(305) The temperature-coefficient of a capacitor affects its capacitance value at different temperatures.

(306) Capacitive reactance is a function of the capacitance and the frequency of the alternating current.

(307) Capacitors can be rated for different voltage and capacitance values, depending on the application.

(308) The time constant of an inductor-capacitor circuit depends on the inductance and capacitance values.

(309) The permittivity of a dielectric material is often used to calculate the capacitance of a capacitor.

(310) The varactor is a semiconductor device that exhibits a nonlinear capacitance-voltage characteristic.

(311) The dielectric material used in a capacitor affects its capacitance and other electrical properties.

(312) Capacitors that are used in motor-starting circuits must have a high capacitance and voltage rating.

(313) The capacitance of an electrolytic capacitor can be determined by its physical size and construction.

(314) Capacitance is an important factor in determining the efficiency of power factor correction circuits.

(315) The time constant of an RC circuit can be calculated using the product of resistance and capacitance.

(316) The capacitance of an electrolytic capacitor is typically much higher than other types of capacitors.

(317) The capacitance of the capacitor is affected by the dielectric constant and the number of picofarads.

(318) Electrolytic capacitors are often used in automotive electronics due to their high capacitance values.

(319) The dielectric constant of a material can be determined experimentally using a capacitance measurement.

(320) The time constant of the RC circuit is determined by the resistance and the capacitance in microfarads.

(321) The time constant of the RL circuit is determined by the resistance and the capacitance in microfarads.

(322) The capacitance of a capacitor can be calculated by dividing the charge by the electric flux in farads.

(323) The electrolytic capacitor is typically used in applications where high capacitance values are required.

(324) The capacitance of a capacitor can be calculated by dividing the energy stored by the voltage in farads.

(325) The capacitance of a capacitor can be calculated by dividing the charge stored by the voltage across it.

(326) The capacitance of a capacitor can be affected by temperature, humidity, and other environmental factors.

(327) The gate electrode is designed to have a high capacitance to efficiently control the transistor operation.

(328) The researchers used electrochemical impedance spectroscopy to analyze electrode double-layer capacitance.

(329) The capacitance of a capacitor can be calculated by dividing the charge by the electric potential in farads.

(330) The experiment required the participants to quantify electrode capacitance in order to optimize performance.

(331) The farad is defined as the amount of capacitance that stores one coulomb of charge when one volt is applied.

(332) The capacitance of the capacitor can be increased by connecting multiple 1 microfarad capacitors in parallel.

(333) The capacitance of a parallel plate capacitor depends on the area of the plates and the distance between them.

(334) Scientific notation is also used in engineering to express values such as electrical resistance and capacitance.

(335) The capacitance of a capacitor can be calculated by dividing the charge by the electric field strength in farads.

(336) The strength of electrotonic transmission is determined by the resistance and capacitance of the neuron's membrane.

(337) The capacitance of a capacitor can be calculated by dividing the charge by the electric potential difference in farads.

(338) The capacitance of a capacitor is inversely proportional to the frequency of the alternating current passing through it.

(339) The value of capacitive reactance depends on the frequency of the alternating current and the capacitance of the capacitor.

(340) Although the electromotive force of the circuit was stable, the capacitance of the capacitor caused a delay in the response time.

(341) The capacitance of a capacitor is proportional to the area of its plates and inversely proportional to the distance between them.

(342) The capacitance of a capacitor can be increased by adding more plates or by using a dielectric material with a higher permittivity.

(343) The series-parallel combination of capacitors is employed in electronic devices to achieve the desired capacitance and voltage rating.

(344) When capacitors are connected in parallel, their capacitance increases, and they can store more energy, but they also discharge faster.

(345) When capacitors are connected in series, their capacitance decreases, and they can withstand higher voltages, but they also discharge slower.

(346) According to the reciprocity theorem, the capacitance between two conductors is the same regardless of which conductor is used as the reference.

(347) Capacitors are made of different materials, and they have different properties, such as capacitance, voltage rating, and temperature coefficient, which affect their performance.

The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Capacitance. They do not represent the opinions of TranslateEN.com.