SOLUTION: Solve the inequality for x, assuming that a,b,and c are positive constants.
a < or = bx+c < 2a
Algebra.Com
Question 1038125: Solve the inequality for x, assuming that a,b,and c are positive constants.
a < or = bx+c < 2a
Answer by Boreal(15235) (Show Source): You can put this solution on YOUR website!
a < or = bx+c < 2a
bx+c<2a
bx<2a-c
x<(2a-c)/b
==========
bx+c>a
bx>(a-c)
x>(a-c)/b
x<(2a-c)/b and > (a-c)/b
RELATED QUESTIONS
Solve for x, assuming a, b and c are negative constants.
(a) ax + b < c
(b) (ax... (answered by ikleyn)
If a, b, and c are positive constants, prove that {{{ax + b/x >= c}}} for all positive... (answered by robertb,Edwin McCravy)
Solve for t assuming a and b are positive constants.
Po=P not... (answered by stanbon)
a|bx-c|=d
Solve for x. Assume that a, b, c, and d represent positive real... (answered by stanbon)
Please help me to find constants a,b and c given that:
2x^3 - x^2 + 6 = (x-1)^2 (2x +... (answered by Edwin McCravy,solver91311)
Solve for x; a, b & c are constants.
9x-b=c
(answered by kateskute)
Suppose that A, B, and C are positive constants and that x+y= C. Show that the minimum... (answered by Edwin McCravy)
Solve for x: ax-bx>2a-2b:
a)if a>b
b)if a (answered by Fombitz)
Solve for x: ax-bx>2a-2b:
a)if a>b
b)if a (answered by Fombitz)