Solutions

1. √8 × √8 = √8×2 = √16 = 4 (1)
2. ³√4 × ³√2  =  ³√4×2 = ³√8  = 2 (2)
3. 9+ √45 = 9+3√5 = 3( 3+ √5 ) = 3 + √5 (3)
          3             3               3
4. ( 2 + √5 ) (2  −  √5 )
   = 2 × 2 – √5 × √5 = 4 – 5 = –1 (2)
   Or multiply out the brackets:
   ( 2 + √5 ) (2  −  √5 ) = 4 + 2√5 – 2 √5 – √5 .√5 = 4 – 5 = –1 (2)
   [10] 

Solutions

1. −3 (( −2a³)² + √9a¹²)  simplify exponents inside the brackets and the square root
   = −3(4a⁶+ 3a⁶) add like terms inside the bracket  
   = –3(7a⁶ ) = –21a⁶ simplify (3)
2.   5(2a⁴)³      simplify brackets at the top and the bottom first
    (5a³)² − 5a⁶ 
    =     5(8a¹²)     =  40a ¹² = 2a⁶(2)
      +25a⁶ - 5a⁶      20a⁶ 
   [5] 

Solutions

1.  a ^-3 = b²
    b^-2     a³
2. 4a⁷b⁻⁴c⁻¹ =  4a⁷d²   
      d^-2e5          b⁴c¹e⁵
3. x^–1+ y^–1 = 1  +  1 = y + x
                     x      y      xy
   [5] 

Solutions

1. . 27 ^3−2x. 9^x−1= (3³)^3−2x. (3²)^x−1  = 3^9−6x. 3^2x−2
              81^2-x                (3⁴)^2−x3^8-4x
   = 3 ^{9−6x+2x−2−8+4x} 
   = 3 ⁻¹  = 1 
                 3 (4)
   
   
2.  6.5^{x +1} - 2.5^{x +2} =  6.5^x .5¹  − 2.5^x . 5²
             5^x+3                       5^x. 5³
   =  30 − 50 = − 20 = − 4
          125        125     25 (4)
   
   
3. 2²⁰⁰⁹ − 2²⁰¹² = 2²⁰⁰⁹ (1 − 2³) = (2²⁰⁰⁹ 1 − 8)
            2²⁰¹⁰             2²⁰¹⁰                  2²⁰¹⁰
   = 2²⁰⁰⁹ (− 7)
         2²⁰¹⁰
   =  2²⁰⁰⁹−2²⁰¹⁰  ×− 7
   =  2⁻¹ × − 7 = ½ × − 7 = ⁻⁷/₂ (5)
   [13]

Solutions
Remember: When adding or subtracting terms, you need to factorise first.

1. 3(9^x+3 ) = 27^2x–1
   3¹(3²)^{x + 3} = (3³)^{2x - 1} prime bases
   3^{1+2 x+6}  = 3^{6 x–3} same bases
   ∴ 7 + 2x = 6x – 3  equate exponents
   –4x = – 3 – 7
   x = −10 =  5 
         − 4      2
   =(3)
2. 3^{2 x −12}  = 1
   3^{2 x –12} = 3⁰ make same bases by putting 1 = 3⁰
   ∴ 2x – 12 = 0 3 equate exponents
   2x = 12
   x = 6 (3)
3. 2^x  = 0,125 convert to a common fraction
   2^x  = 125  =  1  =  1  simplify
          1 000    8      2³
   2^x = 2⁻³ same bases
   ∴ x = –3 equate exponents (3)
4. 10 ^x(x+1) = 100
   10 ^{x(x+ 1)} = 10² same bases
     ∴  x (x + 1) = 2 equate exponents
   x 2 + x – 2 = 0 set quadratic equation = 0
   (x + 2)(x – 1) = 0 factorise the trinomial
   x + 2 = 0 or x – 1 = 0 make each factor = 0
   x = –2 3 x = 1 (4)
5. 5^{2 + x} – 5^x  =  5^x · 23 + 1
   5^{2 + x} − 5^x – 5^x· 23 = 1 like terms
   5^{2 + x} – 24·5^x  = 1
   5². 5x – 24· 5 x  = 1 factorise (Common Factor)
   5^x (5² – 24 )  =  1 33
   5^x (1) =  1
   5^x  = 5⁰ ∴ x = 03 (4)
6. 5^x +  5^x+1   = 30
   5^x + 5^x. 5¹ = 30 factorise
   5^x (1 + 5¹ ) = 30 common factor 5x
   5^x ( 6 ) = 30 3 divide 30 by 6
   5^x = 5 same bases
     ∴ x = 1 3 equate exponents (4)
7. 5^x + 15.5 ^-x  =  2
   ∴ 5^x + 15  =  2
              5^x
   × 5 ^x ∴  5^x. 5^x + 5 ^x.15 =  2.5 ^x 
   ∴  5^x.5^x + 15 = 2.5 ^x
   ∴  5^x. 5^x − 2.5^x  + 15 = 0
   ∴ ( 5^x − 5 ) (5^x + 3 )  = 0
   ∴  5^x  = 5 or 5^x  =  − 3 (no solution)
   ∴ x = 1 (5)
8. 
   [31] 

Solutions

1. √3 x + 4  − 5 = 0
   √3 x + 4  = 5 (isolate the radical )
   ( √3 x + 4) ²  =  5²  (square both sides of the equation)
   3x + 4 = 25 
   3x = 21
   x = 7
   Check:
   LHS: √3(7) + 4   − 5
    =  √21 + 4   − 5
    =  √25   − 5
    = 0
    = RHS
    ∴ x = 7 is a solution (3)
2. √3x − 5  − x = 5
   √3x − 5 = x − 5 (always isolate the radical first)
   ( √3x − 5 ) 2 =  ( x − 5)² (square both sides)
   3x –5 = x² –10x + 25  Remember: (x– 5 ) 2  ≠  x 2  + 25
   0 = x² – 13x + 30  (quadratic equation, set  =  0)
   0  = (x – 10)(x – 3 ) (factorise the trinomial and make each factor  =  0)
   x  =  10 or x =  3
   Check your answer:
   If x = 10
   LHS:
   √3(10) − 5 − 10
    =  √25   − 10
    =  −5 = RHS
   If x = 3
   LHS
   √3(3) − 5 − 3
    =  √4  − 3
    =  −1 ≠  RHS (5)
   ∴ x ≠ 3 and only x = 10 is a solution. 
   [8]