Mathematics • Year 10 • Unit 2 • Lesson 19

Parallel and Perpendicular Lines — Skill Drill

Build fluency with the two key rules from Lesson 19: parallel lines have equal gradients (m₁ = m₂); perpendicular lines have gradients whose product is −1 (m₁ × m₂ = −1, i.e. negative reciprocals). Then write the equation of a parallel or perpendicular line through a given point.

Build · I Do / We Do / You Do

1. I do — fully worked example

Equation of a line parallel to a given one, through a given point.

Problem. Find the equation of the line parallel to y = 3x + 5 passing through (2, −1).

Step 1 — Read off the gradient of the given line.

m₁ = 3 (coefficient of x in y = 3x + 5)

Step 2 — Parallel rule: new gradient is the same.

m₂ = m₁ = 3

Step 3 — Use y = mx + c with m = 3 and substitute (2, −1).

−1 = 3(2) + c → −1 = 6 + c → c = −7

Step 4 — Write the equation.

y = 3x − 7

Answer: y = 3x − 7.

Stuck? Revisit lesson § "Parallel Lines" — Worked Example 1.

2. We do — fill in the missing steps

Equation of a perpendicular line. Fill in each blank. 5 marks

Problem. Find the equation of the line perpendicular to y = 2x + 1 passing through (4, 3).

Step 1 — Original gradient: m₁ = ____.

Step 2 — Perpendicular rule: m₁ × m₂ = ____. So m₂ = ____ (the negative reciprocal of ____).

Step 3 — Write y = ____ x + c.

Step 4 — Substitute (4, 3) to find c:

3 = ____ (4) + c → c = ____

Step 5 — Equation: y = ____.

Stuck? Revisit lesson § "Perpendicular Lines" — Worked Example 2.

3. You do — independent practice

For each: state the new gradient, find c if needed, then write the equation. Always check the rule (m₁ = m₂ for parallel; m₁ × m₂ = −1 for perpendicular).

Foundation — find the perpendicular / parallel gradient

3.1 The perpendicular gradient to m = 4 is ____. 1 mark

3.2 The perpendicular gradient to m = −2/3 is ____. 1 mark

3.3 The parallel gradient to y = 5x − 9 is ____. 1 mark

3.4 A horizontal line has m = 0. What is the gradient of a line perpendicular to it? 1 mark

Standard — parallel / perpendicular through a point

3.5 Equation of the line parallel to y = 2x + 3 passing through (1, 5). 2 marks

3.6 Equation of the line perpendicular to y = −3x + 1 passing through (6, 2). 2 marks

Extension — classify and apply

3.7 Classify y = 3x + 1 and y = −(1/3)x + 2 as parallel, perpendicular or neither. Show the gradient product test. 2 marks

3.8 Two lines have equations 2x + 3y = 6 and 3x − 2y = 4. Find the gradient of each (rearrange to y = mx + c), then test if they are parallel, perpendicular, or neither. 3 marks

Stuck on 3.8? m₁ = −2/3, m₂ = 3/2. Product = −1 → perpendicular.

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Answers — Do not peek before attempting

Section 2 — We do (perpendicular to y = 2x + 1 through (4, 3))

Step 1: m₁ = 2. Step 2: m₁ × m₂ = −1, so m₂ = −1/2 (negative reciprocal of 2). Step 3: y = −1/2 x + c. Step 4: 3 = −1/2(4) + c → 3 = −2 + c → c = 5. Step 5: y = −(1/2)x + 5.

3.1 — perp to m = 4

−1/4.

3.2 — perp to m = −2/3

3/2.

3.3 — parallel to y = 5x − 9

3.4 — perp to a horizontal line

Undefined (vertical line). The product rule m₁ × m₂ = −1 doesn't apply when m₁ = 0; the perpendicular line is vertical, of form x = constant.

3.5 — parallel to y = 2x + 3 through (1, 5)

m = 2 (same as original). 5 = 2(1) + c → c = 3. y = 2x + 3. (This happens to be the original line — (1, 5) lies on it.)

3.6 — perp to y = −3x + 1 through (6, 2)

m₁ = −3 → m₂ = 1/3. 2 = (1/3)(6) + c → 2 = 2 + c → c = 0. y = (1/3)x.

3.7 — classify

m₁ = 3; m₂ = −1/3. m₁ × m₂ = 3 × (−1/3) = −1. The lines are perpendicular.

3.8 — classify (general form)

2x + 3y = 6 → 3y = −2x + 6 → y = (−2/3)x + 2. m₁ = −2/3.
3x − 2y = 4 → −2y = −3x + 4 → y = (3/2)x − 2. m₂ = 3/2.
Test: m₁ × m₂ = (−2/3)(3/2) = −1. The lines are perpendicular.