1001 Algebra Problems.PDF

Set 42 (Page 98)

657. b.Observe that b^4 – 7b^2 + 12 = 0 can be written
     as (b^2 )^2 – 7(b)^2 + 12 = 0. Let u= b^2. Then, rewrit-
     ing the previous equation yields the equation
     u^2 – 7u+ 12 = 0, which is quadratic. Factoring
     the left side results in the equivalent equation
     (u– 4)(u– 3) = 0. Solving this equation for u
     yields the solutions u= 4 oru= 3. In order to
     solve the original equation, we must go back
     to the substitution and write u in terms of the
     original variable b:

u = 4 is the same as b^2 = 4, which gives us

b= ±2

u = 3 is the same as b^2 = 3, which gives us

b= ± 3 

The solutions of the original equation are

b= ±2, ± 3 .

658. a.Let u = b^2. Observe that (3b^2 – 1)(1– 2b^2 ) = 0
     can be written as (3u– 1)(1– 2u) = 0, which is
     quadratic. Solving this equation for uyields
     the solutions u = ^13 or u= ^12 . In order to solve
     the original equation, we must go back to the
     substitution and write u in terms of the origi-
     nal variableb:

u= ^13 is the same as b^2 = ^13 , which gives us

b= ±^ = ±

u= ^12 is the same as b^2 = ^12 , which gives us

b= ±^ = ±

The solutions of the original equation are

b= ±,±.

659. d.Note that 4b^4 + 20b^2 +25 = 0 can be written
     as 4(b^2 )^2 + 20(b)^2 + 25 = 0. Let u= b^2 .Rewrit-
     ing the original equation yields the equation,
     4 u^2 + 20u+25 = 0, which is quadratic. Factor-
     ing the left side results in the equivalent equa-
     tion (2u + 5)^2 = 0. Solving this equation foru
     yields the solution u = –^52 . Solving the original
     equation requires that we go back to the sub-
     stitution and write u in terms of the original
     variable b:

u= –^52 is the same as b^2 = –^52 , which gives us

b= ± – = ± i= ±i()

Therefore, the solutions of the original equa-

tion are b= ±i().

660. b.Observe that 16b^4 – 1 = 0 can be written as
     16(b^2 )^2 – 1 = 0. Let u = b^2. Rewriting the origi-
     nal equation yields the equation 16u^2 – 1 = 0,
     which is quadratic. Factoring the left side results
     in the equivalent equation (4u– 1)(4u+ 1) = 0.
     Solving this equation for uyields the solution
     u= ±^14 . In order to solve the original equation,
     we must go back to the substitution and write
     u in terms of the original variable b:

u= –^14 is the same as b^2 = –^14 , which gives us

b= ± – = ±i ±i(^12 )

u= ^14 is the same as b^2 = ^14 , which gives us

b= ± = ±^12 

The solutions of the original equation are

b= ±i(^12 ), ±^12 .

^1

4

^1

4

^1

4

^10 

2

^10 

2

^5

2

^5

2

^3 

3

^2 

2

^2 

2

^1

2

^3 

3

^1

3

ANSWERS & EXPLANATIONS–