Answer:
√106
Step-by-step explanation:
hope this helps! :)
This question is a very hard and difficult one to answer. The main reason
<span>is because you said "the right rectangular prism shown" and then you didn't </span>
show it. So all I can tell you is this:
-- The volume of each small cube is
(1/4) x (1/4) x (1/4) = 1/64 cubic inch .
-- The volume of the right rectangular prism that's not shown is
<span> (length in inches) x (width in inches) x (height in inches) cubic inches. </span>
The number of small cubes needed to fill the invisible right rectangular prism is ...
(volume of the missing right rectangular prism)
divided by
(volume of each small cube) .
That's
<span> (volume of the alleged right rectangular prism) </span>
divided by
(1/64 cubic inch)
<span>= </span>(64) times (volume of the rumored right rectangular prism)<span> .</span>
Answer:
a) There are 8 possible combinations and each probability is 1/8.
b) The probability that it is a boy given that there are two girls is 3/8
Step-by-step explanation:
a) The sample space is given by:
BBB (3 boys)
BBG (Boy, boy, girl)
BGB (Boy, girl, boy)
BGG (Boy, girl, girl)
GBB (girl, boy, boy)
GBG (girl, boy, girl)
GGB (girl, girl, boy)
GGG (3 girls)
The probability of each combination is the same:
P(BBB)=P(B∩B∩B)=
2) There are three possible combinations in which there are 2 girls and 1 boy:
BGG, GBG, GGB
So the probability is given by:
P(BGG ∪ GBG ∪ GGB)=
Answer:
5.2 metres
Step-by-step explanation:
v = pi. r^2 . h
4.1 = 3.1416 × 0.25 * h
h = 5.22 m
2/3 * 3/1 is 6/3 which is 2
The width is smaller than the length by 1 inch.
The length is larger than thw width
