Year 10 Surds warmup

See also: math-lessons-resources, teaching-mathematics, surds

Prepare a warmup activity for a Year 10 surge class. Focus on simplifying surds. Part of a sequence of lessons revising for an imminent final exam.

Related resources

• AMSI module on SURDS TODO work through this

Aim

Be able to answer questions that ask

Simplify the following expressions. Write your answers in the simplest exact surd form.

For example

1. $\(3\sqrt(27) =\) -- take out any obvious square factors

   • \(= 3 \times ( \sqrt(9) \times \sqrt(3) )\)
   • \(= 3 \times 3 \times \sqrt(3)\)
   • \(= 9\sqrt(3)\)

2. \(7\sqrt(2) + 3\sqrt(8) =\) -- take out any obvious square factors, addition of like squares

   • \(7\sqrt(2) + 3(\sqrt(4 \times 2)) =\)
   • \(7\sqrt(2) + 3(\sqrt(4) \times \sqrt(2)) =\)
   • \(7\sqrt(2) + 3 \times 2 \times \sqrt(2) =\)
   • \(7\sqrt(2) + 6\sqrt(2) =\)
   • \(13\sqrt(2)\)

3. \(-6\sqrt(3) + 5\sqrt(12) =\)

4. \(\dfrac{\sqrt(35)}{\sqrt(7)} =\)

Design considerations

Motivation

• Approximation is bad
• Some connection with trignometic ratios
• rationalising the denominator arises elsewhere: algebra, calculus, and later mathematics

Necessary knowledge

• Declarative knowledge

• What are surds

  • What is a like surd and unlike surd
  • What is a conjugate surd

• What does simplify mean?

• What does simplest exact surd form mean?

• Distributive law and special products

  • Distributive law will be helpful

    • \(a(b + c) = ab + ac\)
    • \(a(b - c) = ab - ac\)

    • \((a + b)(c + d) = ac + ad + bc + bd\)

      • The difference of squares identity is very useful for simplifying surds

    • \(a^2 - b^2 = (a + b)(a - b)\)

• Basic rules

  • For positive numbers, squaring and taking a square root are inverse processes

    • \((\sqrt(a))^2 = a\)
    • \(\sqrt(a^2) = a\)

  • Multiplication

    • \(\sqrt(a) \times \sqrt(b) = \sqrt(ab)\)
    • \(a\sqrt(b) \times c\sqrt(d) = ac\sqrt(bd)\)

  • Division

    • \(\sqrt(a) \div \sqrt(b) = \sqrt(a/b)\)
    • \(a\sqrt(b) \div c\sqrt(d) = \dfrac{a}{c}\sqrt(b/d)\)

  • Addition and subtraction of like surds

    • \(a\sqrt(b) \pm c\sqrt(b) = (a \pm c)\sqrt(b)\)

• Procedural knowledge

  • Which one or more of the

Implementation

Mathematics is patterns and relationships

• Some idea to reinforce this point - perhaps on the slide with the warm up activity

  • The Golden Ratio is one of the earliest and most famous surds discovered by the Greeks (and perhaps others?)

• Related to surds, algebra, or logs/exponentials in someway

• Maybe a step too far

Questions

1. \(\sqrt(32)\) - as a simple application of taking out any square factors (probably not)
2. \(5\sqrt(12)\) - take out square factors + multiplication
3. \(8\sqrt(5) + 3\sqrt(20)\) - take out square factors + addition of like surds
4. \(-3\sqrt(3) + 2\sqrt(27)\) - take out square factors + addition of like surds
5. \(\dfrac{\sqrt(63)}{\sqrt(7)}\)
6. \(\dfrac{\sqrt(5) - 3}{\sqrt(3) + 1}\)