What does the LED spectrum look like with a transmissiongrating?

Item No. P1415401 | Type: Experiments

10 Minutes

grades 10-13

medium

Pupils

EUR 611.10

Content 1 piece

EUR 727.21 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: 4-8 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

Because stray light barely affects this measurement, the clasroom only needs to be slightly darkened in order to make the interferences on the screen visible. The distances must be measured very precisely because even a small imprecision will lead to large deviations in the result.

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

What does an LED spectrum look like through a transmission grating?

The wavelength of light can be determine in a great number of ways. In this experiment you will be introduced to the so-called objective method with transmission grating. The name "transmission grating" means that the light passes through the grating and experiences interference while doing so.

Determine the wavelength of maximum intensity with a transmission grating.

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

Lens on slide mount, f=+100mm