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Hooke's Law — Stretch a Spring and Find Its Stiffness
Penny

නිර්මාතෘ

Penny

2. ජූලි 2026DK
13
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Hooke's Law — Stretch a Spring and Find Its Stiffness

A hands-on school project: hang known weights on a spring, measure how far it stretches with a ruler, and discover Hooke's law — the stretch is proportional to the force. A Python cell checks your readings and works out the spring's stiffness, and a closing compendium explains springs from mattresses to mechanical watches.
ආරම්භක
30 minutes

උපදෙස්

1

As the stretch, so the force

In 1660 Robert Hooke found how springs behave and hid it in an anagram, later revealed as 'ut tensio, sic vis' — as the extension, so the force. The pull needed to stretch a spring is proportional to how far it stretches. You will measure that straight-line law yourself.
2

Set up the spring

Hang a spring from a firm support with a ruler fixed vertically beside it. Note where the bottom of the unstretched spring sits — that is your zero. (A force meter, which is just a spring in a tube, works too and reads the force directly.)

Materials for this step:

Compression Spring SetCompression Spring Set1 piece

Tools needed:

Steel Ruler (30cm)Steel Ruler (30cm)
Force Meter (Spring Scale)Force Meter (Spring Scale)
3

Hang weights and measure the stretch

Hang a known weight on the spring and read how far the bottom has dropped on the ruler — that is the extension. Add more weight, one step at a time, recording the mass and the extension each time. Take four or five readings. Do not overload it: if you stretch a spring too far it never springs back, and Hooke's law stops working (the 'elastic limit').

Materials for this step:

Ankle Weight Set (Adjustable, DIY)Ankle Weight Set (Adjustable, DIY)1 piece
4

Check the straight line and find k

Loading Jupyter Notebook...

Tools needed:

Desktop ComputerDesktop Computer
CalculatorCalculator
5

Compendium: the physics of springs

What your straight line means. (1) The slope of your force-versus-stretch line IS the stiffness k, measured in newtons per metre; a stiff spring gives a steep line. (2) The energy stored in a stretched spring grows as one-half k times the stretch squared — which is why a bow or a catapult stores so much punch at full draw. (3) The law only holds up to the elastic limit; beyond it the material deforms permanently, and this is exactly how engineers test the strength of metals. (4) Springs following Hooke's law are everywhere: bathroom and kitchen scales, car and train suspensions, mattresses and trampolines, the tiny hairspring that keeps a mechanical watch ticking, and — generalised into 'Young's modulus' — the stiffness of every beam and bridge. A mass bouncing on a spring is also the textbook model of every vibration in nature.

ද්‍රව්‍ය

2

අවශ්‍ය මෙවලම්

4

You can swap these in

Can't get one of the materials? Swap it for an equivalent — these work just as well.

සම්බන්ධ බ්ලූප්‍රින්ට්

මෙම බ්ලූප්‍රින්ට් දැනුම බෙදා ගනී — ශිල්ප ක්‍රම, ද්‍රව්‍ය හෝ මූලධර්ම

CC0 පොදු වසම

මෙම බ්ලූප්‍රින්ට් CC0 යටතේ නිකුත් කර ඇත. ඔබට අවසර නොමැතිව පිටපත් කිරීම, වෙනස් කිරීම, බෙදා හැරීම සහ භාවිතා කිරීම කළ හැක.

බ්ලූප්‍රින්ට් හරහා නිෂ්පාදන මිලදී ගැනීමෙන් නිර්මාතෘට සහාය වන්න නිර්මාතෘ කොමිසම විකුණුම්කරුවන් විසින් නියම කළ, හෝ මෙම බ්ලූප්‍රින්ට්හි නව අනුවාදයක් සාදා ආදායම බෙදා ගැනීමට ඔබේ බ්ලූප්‍රින්ට්හි සම්බන්ධතාවයක් ලෙස ඇතුළත් කරන්න.

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