Dielectric constant of different materials

The electric constant is determined by measuring the charge of a plate capacitor to which a voltage is applied. The dielectric constant is determined in the same way, with plastic or glass filling the space between the plates.

  • Supplies non-hazardous high voltage
  • Easy experimental set-up due to clear and compact design
  • Clever investment: The included universal measuring amplifier can also be used for other applications

PHYWE Universal measuring amplifier

PHYWE high voltage supply unit with digital display, 10 kV

Capacitor 220nF/250V, G1

Plate capacitor, d 260mm

Plastic plate 283 x 283 mm

Glass plates f.current conductors

Voltmeter, 0.3-300 V DC, 10-300 V AC

High-value resistor, 10 MOhm

Connecting cord,100 mm, green-yellow

Connecting cord, 32 A, 500 mm, red

Connecting cord, 32 A, 500 mm, blue

Connecting cord, 32 A, 1000 mm, yellow

Connecting cord, 30 kV, 500 mm

Screened cable, BNC, l = 750 mm

Adaptor, BNC socket/4 mm plug

Connector, T type, BNC

Adapter, BNC-plug/socket 4 mm

  1. The relation between charge Q and voltage U is to be measured using a plate capacitor.
  2. The electric constant is to be determined from the relation measured under point 1.
  3. The charge of a plate capacitor is to be measured as a function of the inverse of the distance between the plates, under constant voltage.
  4. The relation between charge Q and voltage U is to be measured by means of a plate capacitor, between the plates of which different solid dielectric media are introduced. The corresponding dielectric constants are determined by comparison with measurements performed with air between the capacitor plates.
  • Maxwell’s equations
  • Electric constant
  • Capacitance of a plate capacitor
  • Real charges
  • Free charges
  • Dielectric displacement
  • Dielectric polarisation
  • Dielectric constant

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Product number

P2420600

dielectric-constant-of-different-material

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