How do I solve this inequality? Please include steps


Please share with us how far you get. Can you say what part you find confusing? Thanks.

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Those exponentials are a nuisance so my first step would be to divide both sides by \(\displaystyle 10^x\) and multiply both sides by \(\displaystyle 11^x\). What do you get when you do that?
 
x*x^10 by definition means x*(x*x*x*x*x*x*x*x*x*x) = x*x*x*x*x*x*x*x*x*x*x = x^11
So x*x^10/x^11 = x^11/x^11 = 1.

Now (x+1)^10*(x+1) = [(x+1)*(x+1)*(x+1)*(x+1)*(x+1)*(x+1)*(x+1)*(x+1)*(x+1)*(x+1)]*(x+1) = (x+1)*(x+1)*(x+1)*(x+1)*(x+1)*(x+1)*(x+1)*(x+1)*(x+1)*(x+1)*(x+1) = (x+1)^11

So, (x+1)^10*(x+1)/(x+1)^11 = (x+1)^11/(x+1)^11 =1

For which values of x are both sides equal to one another? Hint: both sides always equal 1.
 
The following property of exponents is useful for simplifying a ratio of powers having the same base. (We get two such ratios, after applying the steps suggested in post #3.)

a^n / a^m = a^(n-m)

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x10^x/11^x>=(x+1)10^(x+1)/11^(x+1)
Divide both sides by 10^x to get
x/11^x>= 10(x+1)/11^(x+1)

Multiply both sides by 11^(x+1) to get
11x>= 10(x+ 1)

Distribute the 10 on the right
11x>= 10x+ 10

Subtract 10x from both sides of the equation
x>= 10.
 
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