Find region of $0le yle1$ and $yle xle1$ [closed]
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How i can find the region that is bouned from these inequalities? Any general rule when we have to deal with these inequalities? Ploting the graphs?
integration area
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closed as off-topic by Shailesh, Lord Shark the Unknown, Leucippus, Chris Custer, A. Pongrácz Jan 16 at 7:19
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How i can find the region that is bouned from these inequalities? Any general rule when we have to deal with these inequalities? Ploting the graphs?
integration area
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closed as off-topic by Shailesh, Lord Shark the Unknown, Leucippus, Chris Custer, A. Pongrácz Jan 16 at 7:19
This question appears to be off-topic. The users who voted to close gave this specific reason:
- "This question is missing context or other details: Please provide additional context, which ideally explains why the question is relevant to you and our community. Some forms of context include: background and motivation, relevant definitions, source, possible strategies, your current progress, why the question is interesting or important, etc." – Shailesh, Leucippus, Chris Custer, A. Pongrácz
If this question can be reworded to fit the rules in the help center, please edit the question.
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Understanding Cartesian coordinates is a good start.
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– John Douma
Jan 16 at 0:11
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$begingroup$
How i can find the region that is bouned from these inequalities? Any general rule when we have to deal with these inequalities? Ploting the graphs?
integration area
$endgroup$
How i can find the region that is bouned from these inequalities? Any general rule when we have to deal with these inequalities? Ploting the graphs?
integration area
integration area
edited Jan 16 at 0:13
Key Flex
8,57761233
8,57761233
asked Jan 16 at 0:06
user599310user599310
1071
1071
closed as off-topic by Shailesh, Lord Shark the Unknown, Leucippus, Chris Custer, A. Pongrácz Jan 16 at 7:19
This question appears to be off-topic. The users who voted to close gave this specific reason:
- "This question is missing context or other details: Please provide additional context, which ideally explains why the question is relevant to you and our community. Some forms of context include: background and motivation, relevant definitions, source, possible strategies, your current progress, why the question is interesting or important, etc." – Shailesh, Leucippus, Chris Custer, A. Pongrácz
If this question can be reworded to fit the rules in the help center, please edit the question.
closed as off-topic by Shailesh, Lord Shark the Unknown, Leucippus, Chris Custer, A. Pongrácz Jan 16 at 7:19
This question appears to be off-topic. The users who voted to close gave this specific reason:
- "This question is missing context or other details: Please provide additional context, which ideally explains why the question is relevant to you and our community. Some forms of context include: background and motivation, relevant definitions, source, possible strategies, your current progress, why the question is interesting or important, etc." – Shailesh, Leucippus, Chris Custer, A. Pongrácz
If this question can be reworded to fit the rules in the help center, please edit the question.
$begingroup$
Understanding Cartesian coordinates is a good start.
$endgroup$
– John Douma
Jan 16 at 0:11
add a comment |
$begingroup$
Understanding Cartesian coordinates is a good start.
$endgroup$
– John Douma
Jan 16 at 0:11
$begingroup$
Understanding Cartesian coordinates is a good start.
$endgroup$
– John Douma
Jan 16 at 0:11
$begingroup$
Understanding Cartesian coordinates is a good start.
$endgroup$
– John Douma
Jan 16 at 0:11
add a comment |
1 Answer
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In terms of what?
$0 le y le 1$ mean all the points are in the band between the $x$-axis (which is $y = 0$) and the horizontal line at $y=1$.
$yle x$ means all these points are below (and to the right) of the diagonal line $y=x$. $xle 1$ means all the points are to the right of the vertical line at $x = 1$.
So this is the region between $y=0$ $y=x$ and $x=1$. Those three lines bound off a triangle that has vertices at $(0,0), (1,1)$ and $(1,0)$.
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add a comment |
1 Answer
1
active
oldest
votes
1 Answer
1
active
oldest
votes
active
oldest
votes
active
oldest
votes
$begingroup$
In terms of what?
$0 le y le 1$ mean all the points are in the band between the $x$-axis (which is $y = 0$) and the horizontal line at $y=1$.
$yle x$ means all these points are below (and to the right) of the diagonal line $y=x$. $xle 1$ means all the points are to the right of the vertical line at $x = 1$.
So this is the region between $y=0$ $y=x$ and $x=1$. Those three lines bound off a triangle that has vertices at $(0,0), (1,1)$ and $(1,0)$.
$endgroup$
add a comment |
$begingroup$
In terms of what?
$0 le y le 1$ mean all the points are in the band between the $x$-axis (which is $y = 0$) and the horizontal line at $y=1$.
$yle x$ means all these points are below (and to the right) of the diagonal line $y=x$. $xle 1$ means all the points are to the right of the vertical line at $x = 1$.
So this is the region between $y=0$ $y=x$ and $x=1$. Those three lines bound off a triangle that has vertices at $(0,0), (1,1)$ and $(1,0)$.
$endgroup$
add a comment |
$begingroup$
In terms of what?
$0 le y le 1$ mean all the points are in the band between the $x$-axis (which is $y = 0$) and the horizontal line at $y=1$.
$yle x$ means all these points are below (and to the right) of the diagonal line $y=x$. $xle 1$ means all the points are to the right of the vertical line at $x = 1$.
So this is the region between $y=0$ $y=x$ and $x=1$. Those three lines bound off a triangle that has vertices at $(0,0), (1,1)$ and $(1,0)$.
$endgroup$
In terms of what?
$0 le y le 1$ mean all the points are in the band between the $x$-axis (which is $y = 0$) and the horizontal line at $y=1$.
$yle x$ means all these points are below (and to the right) of the diagonal line $y=x$. $xle 1$ means all the points are to the right of the vertical line at $x = 1$.
So this is the region between $y=0$ $y=x$ and $x=1$. Those three lines bound off a triangle that has vertices at $(0,0), (1,1)$ and $(1,0)$.
answered Jan 16 at 0:23
fleabloodfleablood
73.7k22891
73.7k22891
add a comment |
add a comment |
$begingroup$
Understanding Cartesian coordinates is a good start.
$endgroup$
– John Douma
Jan 16 at 0:11