Which statement belongs in the intersection of the Venn Diagram? (4 points)

The distance around a closed figure
The space within a closed figure
Measured using the distance formula
Measured in units squared

Question

Which statement belongs in the intersection of the Venn Diagram? (4 points)

        The distance around a closed figure
	The space within a closed figure
	Measured using the distance formula
	Measured in units squared

anonymous · Answer

attachment

anonymous · Answer

Find the perimeter of the image below: (4 points)


 	
	33.4 units
	35. 8 units
	37.6 units
	39.2 units

anonymous · Answer

attachment

anonymous · Answer

Find the area of the image below: (4 points)


 	
	41 square units
	44 square units
	52 square units
	56 square units

anonymous · Answer

attachment

anonymous · Answer

@hartnn

tkhunny · Answer

A Venn Diagramme is normally intended to express imprecise relationships.  It CAN be more exact, but does not have to be.  The areas often are not to scale.  There is almost certainly no precision to the location of the intersections - excepting their rough, non-directional relationships to each other.  Thus:

1) No
2) Yes
3) No
4) Maybe

You need to make up your mind.  You also need to stop dumping questions and start doing your homework.  Others will HELP you.  You may find some who will do it for you.  I hope not, but it does happen.

anonymous · Answer

Thank you! I wasnt dumping questions either hartnn was helping me with studying for a big test and i asked him if he could help with 3 more questions. He then told me to type all of them in a new question box. And i am doing my homework i just dont understand these questions.

anonymous · Answer

I would also greatly appreciate it if you would help with with the other two questions :)

anonymous · Answer

@tkhunny are you there?

tkhunny · Answer

Fair enough.  I am delighted when someone offers an actual answer, rather than simply choosing to be offended by my challenge.

What did you decide for the Venn Diagram?

anonymous · Answer

The space within a closed figure because it is the distance around a closed figure and there isnt enough information to know if its measured using the distance formula or measured in units square :)

tkhunny · Answer

Generally, Venn Diagrams have NOTHING to do with perimeters.

For the first geometrical figure, please draw auxilliary lines $\overline{CE}\;and\;\overline{BE}$, and see if any triangles jump out at you.

anonymous · Answer

Yes three triangles jump out at me.

tkhunny · Answer

Can you calculate their areas?  $Area = \dfrac{1}{2}Base\cdot Height.$  You just have to twist your head the right direction to find a Base and Height that make sense.

anonymous · Answer

i have no idea.

tkhunny · Answer

They were not nice enough to provide the most useful point on the second drawing.  Construct yourself the line segment from Point C to the point (6,5) and see if any simpler shapes jump out at you.

anonymous · Answer

yeah

tkhunny · Answer

I do not believe you have no idea.

$\overline{CE}$ is a Base and...

a Height for that top triangle can go from the point (4,7) to D.  You can then count squares to determine their values.  Please do so and show your results.

anonymous · Answer

Height is 6 and base is 2 correct?

tkhunny · Answer

Show me the area for two of the three triangles.  Then, I have to go.  You can do it!

tkhunny · Answer

I do not understand that.  How many spaces from C to E?

anonymous · Answer

6 spaces from C to E

tkhunny · Answer

Remember that a Height and a Base must be perpendicular.

6 is correct.  This is a base of triangle CED.
The Height, please?  How many spaces from (4,7) to D?

anonymous · Answer

4 spaces from (4,7) to D

tkhunny · Answer

That's correct.  Base = 6, Height = 4.  Calculate the Area.

anonymous · Answer

The area is 12.. Am i right??

tkhunny · Answer

Perfect.  Now, move on to Triangle CEB.  Do the same thing.  Find a suitable Base and then find a suitable Height - perpendicular to the base.  This is a Right Triangle (you should have noticed that), so it should be easy to find both.

anonymous · Answer

is the area for traingle CEB 32?

tkhunny · Answer

Note: You may wish to use $\overline{CE}$, since you already counted that for the previous triangle.  The area of Triangle CEB is NOT 32.  What did you use for Base and Height?

anonymous · Answer

for Height i used 8 and for base i used 8 too

tkhunny · Answer

We already know that $m(\overline{CE}) = 6$.  How did you manage to get 8 out of it?

anonymous · Answer

i dont know i guess i counted wrong . but so the area is 24 then?

tkhunny · Answer

That was why I suggested using $\overline{CE}$.  We already counted it correctly for the first triangle.

Now, off to the third triangle, BEA.  I suggest very strongly that we use $\overline{BE}$ as the Base, since we already know it has length 8.  Now, we need a suitable hieght.  Suggestions?

tkhunny · Answer

Think about the point (2,5).

Good luck.  gtg

anonymous · Answer

the correct answer for the first one is Measured using the distance formula