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Which of the following could be the value of G ? [#permalink]
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Asmakan wrote:
Based on your answer, here we don't treat the < as =.
For example, if we have [m]G^2=G[m]
we will solve it as
G(G-1)=0
Then G=0 or G=1
but because we have inequality here, then we have to consider it differently. Therefore, we have to see the signs and separate the two cases based on that, right ?
Correct

Asmakan wrote:
Secondly, do the solutions of the same variable have to intersect so we consider it as a solution ?


Yes, in each case (separately) the solutions should intersect.

Watch the following two videos on inequalities which I have posted. These will make the entire inequalities topic easy

Watch the following video to learn the Basics of Inequalities



Watch the following video to learn How to Solve Inequality Problems

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Re: Which of the following could be the value of G ? [#permalink]
BrushMyQuant wrote:
Asmakan wrote:
Based on your answer, here we don't treat the < as =.
For example, if we have [m]G^2=G[m]
we will solve it as
G(G-1)=0
Then G=0 or G=1
but because we have inequality here, then we have to consider it differently. Therefore, we have to see the signs and separate the two cases based on that, right ?
Correct

Asmakan wrote:
Secondly, do the solutions of the same variable have to intersect so we consider it as a solution ?


Yes, in each case (separately) the solutions should intersect.

Watch the following two videos on inequalities which I have posted. These will make the entire inequalities topic easy

Watch the following video to learn the Basics of Inequalities



Watch the following video to learn How to Solve Inequality Problems



There is one thing that I didn't understand in the sine wave method, is when the x = -ve number. ?
If that is the case, then it is faster and easier to use the normal method to save time.
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Which of the following could be the value of G ? [#permalink]
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Asmakan wrote:
There is one thing that I didn't understand in the sine wave method, is when the x = -ve number. ?
If that is the case, then it is faster and easier to use the normal method to save time.


It is not x = -ve value it is when x has a negative coefficient.
I.e. if equation is like (3-x) > 0
Here coefficient of x = -1. So, to use the sine wave method we need to make coefficient of x as positive.
That is done by multiplying equation by -1
=> -1*(3-x) < 0
=> (x-3) < 0
Now, we can use sine wave method

Hope that helps!
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Which of the following could be the value of G ? [#permalink]
BrushMyQuant wrote:
Asmakan wrote:
There is one thing that I didn't understand in the sine wave method, is when the x = -ve number. ?
If that is the case, then it is faster and easier to use the normal method to save time.


It is not x = -ve value it is when x has a negative coefficient.
I.e. if equation is like (3-x) > 0
Here coefficient of x = -1. So, to use the sine wave method we need to make the coefficient of x positive.
That is done by multiplying the equation by -1
=> -1*(3-x) < 0
=> (x-3) < 0
Now, we can use sine wave method

Hope that helps!


Why do I have to check for the third example x= and then put the = sign with the inequality? while I didn't do the same for the first and second example?
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Which of the following could be the value of G ? [#permalink]
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