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y=kx비례와 반비례 Lab

A tap pours 2L per minute. Run it 3 times as long — how many times the water?

Direct proportion passes multiples through (y=kx); inverse proportion keeps the product constant (xy=k) — the two basic shapes of relationships.

Experiment

Hands-on experiment

🔮 Predict first — a tap pours 2L per minute. Run it 3 times as long — the water?

🚰 Change the time

2L per minute. Watch the water as the time doubles and triples.

time1 min

2L

water collected

time1
water collected2
water ÷ time2
02464812
📖 Read more — why it exists · insights · common mistakes · formulasExpand ▾

Why

Why does this exist?

'Buy double, pay double'; 'go twice as fast, take half the time' — most everyday arithmetic stands on these two sentences. We needed an eye for which relationships obey them and which don't.

The criteria are clean: multiples pass through → direct (y=kx); the product stays fixed → inverse (y=k/x). Master just these two and estimation and unit conversion become instant.

Graphs expose their identity — direct is a straight line through the origin; inverse is a curve hugging the axes (a hyperbola). Reading the shape of a relationship is the last step before functions.

Insight

Insights from the video

The heart of direct proportion is passing through the origin.

Zero minutes, zero liters — do nothing, get nothing. A taxi fare grows with distance but isn't proportional (at 0km you still owe the base fare). Origin-crossing is direct proportion's ID card.

Inverse proportion is the mathematics of sharing.

Wherever a fixed whole (60L, one cake, one job) gets divided, inverse proportion appears. Twice the sharers, half the share — because the product (the whole) is constant.

Misconception

Common misconceptions

If both grow together, it's direct proportion.

Age and height grow together, but double the age isn't double the height. The test isn't 'grow together' but 'multiples pass through' — double one and the other doubles exactly. A far stricter condition.

Inverse proportion just means 'one grows, the other shrinks'.

Shrinking isn't enough. The test is a constant product (xy=k) — double one and the other must exactly halve. For a 60L tub, (flow) × (time) is always 60.

Formula

Writing it as math

The two relationships from the bathtub experiment, formalized.

Direct proportion

Double or triple x and y follows exactly. k is the 'per one' rate (2L per minute) — the graph is a line through the origin.

Inverse proportion

Double x and y halves — the product stays k. For the 60L tub, flow × time = 60. The graph is a curve approaching the axes.

The test

y÷x always equal? Direct. x×y always equal? Inverse. Both testable straight from a table.

In Real Life

Where you meet it in real life

Shopping and unit price

3 for $3.60, so 5 for…? Price is proportional to count ($1.20 each) — the unit-price lab's arithmetic is direct proportion throughout.

Speed and time

Same distance, twice the speed, half the time — with distance fixed, speed and time are inversely proportional (speed × time = distance).

Recipes

A 2-serving recipe scaled to 5 — every ingredient × 2.5. Amounts are proportional to servings, so one multiplier finishes the job.

Gears

Meshed gears spin inversely to their tooth counts — half the teeth, twice the turns. The mathematics of bicycle gearing.

Try Yourself

Test yourself

Q14 tangerines cost $2.00. How much for 10?Show answer ▾

$0.50 each (the constant k), so 10 cost $5.00. In direct proportion, find 'per one' first and any amount computes instantly.

Q2A job takes 6 people 4 hours. How long for 8 people (same pace each)?Show answer ▾

people × hours = the job = 24, constant (inverse proportion). Eight people: 24÷8 = 3 hours.

Q3Taxi fares grow with distance. Direct proportion?Show answer ▾

No — the base fare means you owe money even at 0km, so the graph misses the origin (y=0.8x+4.8). 'Grows together' isn't 'proportional': double the distance isn't double the fare.

💡 Try answering yourself before revealing it — getting it wrong is where learning starts.

Watch

Related video

Double in, double out — proportionThe video link is coming soonBrowse the YouTube channel →

Connection

Concepts connect

Previous concept

□→△

Patterns & Correspondence

Among correspondences like □×4=△, the ones that pass multiples through are proportions.

← Patterns & Correspondence lab

Leads to next

a:b

Ratios

The constant k's true identity is a rate — 'per one'. Master the language of ratios and proportion completes.

Go to the Ratios lab →

Related

Labs worth exploring together

Related lab

a:b

Ratios

The constant k IS a rate per unit — the two labs are one body.

Go to the Ratios lab →

Related lab

ax+b

Linear Functions

Add an intercept to y=kx and you get y=ax+b — direct proportion is the special case.

Go to the Linear Functions lab →