Determining the focal length of a convex lens

Item No. P1068300 | Type: Experiments

10 Minutes

grades 7-10

Pupils

easy

EUR 656.90

Content 1 piece

EUR 781.71 Incl. VAT

I'm also part of:

Student set Optics 2, TESS advanced Physics

Item No. 25277-88 | Type: Set

Delivery time: available

EUR 462.30 Excl. VAT

EUR 550.14 Incl. VAT

Student set Optics 2 digital, TESS advanced Physics

Item No. 25277-88D | Type: Set

EUR 598.00 Excl. VAT

EUR 711.62 Incl. VAT

Principle

Two experimental variants for the determination of the focal length of a convex lens are suggested, so that at least once the students can discuss the advantages and disadvantages of each. The second variation is less accurate but easier to understand than the first. If the teacher decides to have the students carry out only one variant, then the determination of the focal length by autocollimation is to be preferred.

Benefits

Multifunctional light box - All-in-one: Can be used for geometric optics on the table, colour mixing and on an optical bench
Extension with others sets at anytime, no additional light sources needed, recognition value for students

Tasks

How is the focal length of a convex lens determined? Determine the focal length of a convex lens (convergent lens) with two different methods: 1. by autocollimation 2. by uniting parallel light at the focal point.

Device name

Item No.

Quantity

Optical profile-bench for student experiments, l = 600 mm

Item No. 08376-00

Light box, halogen 12V/20 W

Item No. 09801-00

Bottom with stem for light box

Item No. 09802-20

Lens on slide mount, f=+50mm

Item No. 09820-01

Lens on slide mount, f=+100mm