When is a light-emitting diode a receiver?

Item No. P1418401 | Type: Experiments

10 Minutes

grades 10-13

medium

Pupils

EUR 726.60

Content 1 piece

EUR 864.65 Incl. VAT

I'm also part of:

Student set Optics / Atomic physics (special edition), TESS advanced Physics

Item No. 13286-88 | Type: Set

Delivery time: 3-4 weeks

EUR 1,033.90 Excl. VAT

EUR 1,230.34 Incl. VAT

Student set Optics / Atomic physics digital, TESS advanced Physics

Item No. 15350-88D | Type: Set

EUR 1,254.70 Excl. VAT

EUR 1,493.09 Incl. VAT

Student set Optics / Atomic physics, TESS advanced Physics

Item No. 15350-88 | Type: Set

Delivery time: 4-8 weeks

EUR 994.80 Excl. VAT

EUR 1,183.81 Incl. VAT

Principle

Performing this experiment is not difficult and it can be carried out in daylight as any light interference is shielded by the tube.

Benefits

Specified for the requirements of the german final secondary-school examinations
Especially for secondary schools
Quantum and wave optics in a student experiment

Tasks

When is an LED a receiver? A light emitting diode or LED is an electronic semiconductor component. If a current flows through the LED in the conduction direction it emits light. Physically, semiconductors are characterised by a band gap, i.e. an energetically forbidden zone for electrons. This energy gap between the valence band and the conducting band essentially determines the electrical and optical properties. E.g. a photon whose energy is less than the band gap energy of the semiconductor cannot create an electron-hole pair. In this experiment you will determine the size of the band gaps of the LED relative to one other.

Device name

Item No.

Quantity

Support base, variable

Item No. 02001-00

Stand rods, stainless steel, various sizes | Length: 600 mm

Item No. 02037-00

Slide mount without angle scale

Item No. 09851-02

Diaphragm holder, attachable

Item No. 11604-09

LED - IR, with series resistor and 4 mm plugs