Years
>
Year 11>
Functions and Relations>
Graphing the Intersection of Regions>
Graphing the Intersection of Regions 2Graphing the Intersection of Regions 2
Try VividMath Premium to unlock full access
Time limit: 0
Quiz summary
0 of 4 questions completed
Questions:
- 1
- 2
- 3
- 4
Information
–
You have already completed the quiz before. Hence you can not start it again.
Quiz is loading...
You must sign in or sign up to start the quiz.
You have to finish following quiz, to start this quiz:
Loading...
- 1
- 2
- 3
- 4
- Answered
- Review
-
Question 1 of 4
1. Question
Graph the intersection of regions`x^2+y^2≤4`$$|x|>1$$Hint
Help VideoCorrect
Keep Going!
Incorrect
Remember the following notations when graphing inequalities.Symbol Solid / Dotted `<` Dotted Line `>` Dotted Line `≤` Solid Line `≥` Solid Line First, treat the inequality sign as an equals sign and plot the curve.Graph the line `x=1` and `x=-1`, which are the absolute values of `x`Since `x``>``1` and `x``<``-1`, we can determine that the shaded part would be the left side from `x=-1` and the right side from `x=1`Next, graph the curve `x^2+y^2=4`Use a test point to see which side of the line is to be shaded. We can try the origin, `(``0``,``0``)`$$\color{#9a00c7}{x}^2+\color{#00880A}{y}^2$$ `≤` `4` $$\color{#9a00c7}{0}^2+\color{#00880A}{0}^2$$ `≤` `4` Substitute `(0,0)` `0` `≤` `4` The inequality is true, so we will shade the side of the line which includes the originFinally, shade the overlapping regions. -
Question 2 of 4
2. Question
Graph the intersection of regions`y≥x^2``y≤3x`$$x<1$$Hint
Help VideoCorrect
Correct!
Incorrect
Remember the following notations when graphing inequalities.Symbol Solid / Dotted `<` Dotted Line `>` Dotted Line `≤` Solid Line `≥` Solid Line First, treat the inequality sign as an equals sign and plot the curve.Graph the line `x=1`Since `x<1`, we can determine that the shaded part would be the left side because all values on the left side are less than `1`Next, graph the line `y=3x`Use a test point to see which side of the line is to be shaded. We can try the point `(``2``,``0``)``y` `≤` `3``x` `0` `≤` `3(``2``)` Substitute `(2,0)` `0` `≤` `6` The inequality is true, so we will shade the side of the line which includes the point `(2,0)`Next, graph the curve `y=x^2`Use a test point to see which side of the line is to be shaded. We can try the point `(``0``,``2``)``y` `≥` $$\color{#9a00c7}{x}^2$$ `2` `≥` $$\color{#9a00c7}{0}^2$$ Substitute `(0,2)` `2` `≥` `0` The inequality is true, so we will shade the side of the line which includes the point `(0,2)`Finally, shade the overlapping regions. -
Question 3 of 4
3. Question
Graph the intersection of regions`y≤x^2``x≤2`$$y>-1$$Hint
Help VideoCorrect
Great Work!
Incorrect
Remember the following notations when graphing inequalities.Symbol Solid / Dotted `<` Dotted Line `>` Dotted Line `≤` Solid Line `≥` Solid Line First, treat the inequality sign as an equals sign and plot the curve.Graph the line `y=-1`Since `y> -1`, we can determine that the shaded part would be the upper side because all values on the upper side are greater than `-1`Next, graph the line `x=2`Since `x≤2`, we can determine that the shaded part would be the left side because all values on the left side are less than `2`Next, graph the curve `y=x^2`Use a test point to see which side of the line is to be shaded. We can try the point `(``0``,``3``)``y` `≤` $$\color{#9a00c7}{x}^2$$ `3` `≤` $$\color{#9a00c7}{0}^2$$ Substitute `(0,2)` `3` `≤` `0` The inequality is false, so we will shade the side of the line which does not include the point `(0,3)`Finally, shade the overlapping regions. -
Question 4 of 4
4. Question
Graph the intersection of regions`x^2+y^2≤4`$$y>1$$$$x+y>2$$Hint
Help VideoCorrect
Excellent!
Incorrect
Remember the following notations when graphing inequalities.Symbol Solid / Dotted `<` Dotted Line `>` Dotted Line `≤` Solid Line `≥` Solid Line First, treat the inequality sign as an equals sign and plot the curve.Graph the line `x+y=2`Use a test point to see which side of the line is to be shaded. We can try the origin, `(``0``,``0``)`$$\color{#9a00c7}{x}+\color{#00880A}{y}$$ `>` `2` $$\color{#9a00c7}{0}+\color{#00880A}{0}$$ `>` `2` Substitute `(0,0)` `0` `>` `2` The inequality is false, so we will shade the side of the line which does not include the originNext, graph the line `y=1`Since `y>1`, we can determine that the shaded part would be the upper side because all values on the upper side are greater than `1`Next, graph the curve `x^2+y^2=4`Use a test point to see which side of the line is to be shaded. We can try the origin, `(``0``,``0``)`$$\color{#9a00c7}{x}^2+\color{#00880A}{y}^2$$ `≤` `4` $$\color{#9a00c7}{0}^2+\color{#00880A}{0}^2$$ `≤` `4` Substitute `(0,0)` `0` `≤` `4` The inequality is true, so we will shade the side of the line which includes the originFinally, shade the overlapping regions.