After being exposed to an electromagnetic shrinking machine Joe's height decreased by 120 cm over 1.5 seconds. His height decreased by the same amount each second. How much did Joe's height change each second?
spinning a 1, 2, or 3. option d.
step-by-step explanation: when spinning a number graph up to 4, and aiming for any number less than 3, that automatically eliminates the number 4. now you have two numbers to spin on that are less than 3, but the number 3 is included in this question because it's no greater of an number than itself. i hope this you : )
tell you what. i'll find the length of the medians and you can fill in the blanks where they belong.
br
b = (2a,0)
r = (a/2,b/2) remember these things are medians. they go to the 1/2 way point of the line opposite the vertex they face.
br^2 = (2a - a/2)^2 + (0 - b/2)^2
br^2 = (3/2 a) ^2 + b^2 / 4
br^2 = 9/4 a^2 + b^2 / 4 we need to find some relationship between a and b.
let's try ab = bc
ab = 2a
bc = (2a - a)^2 + (b - 0)^2
bc = sqrt(a^2 + b^2)
ab = bc
2a = sqrt(a^2 + b^2) square both sides.
4a^2 = a^2 + b^2 subtract a^2 from both sides.
sqrt(3a^2) = sqrt(b^2)
sqrt(3)a = b
let's put b into br^2
br^2 = 9/4 a^2 + 3b^2 / 4
br^2 = 12 a^2 / 4
br^2 = 3a^2
br = sqrt(3) * a
cp
c = (a,b) ; p = (a,0) this is another application of the distance formula, and it is a good one.
cp^2 = (a - a)^2 + (b - 0)^2
cp^2 = 0 + b^2
cp^2 = b^2 which you can see from the diagram.
cp = sqrt(b^2)
cp = b but b = sqrt(3) * a
cp = sqrt(3)*a
aq
a = (0,0)
q = (3/2) a, b/2
aq^2 = (3a/2 -0)^2 + (b/2 - 0)^2
aq^2 = 9a^2/4 + b^2/4
but b = sqrt(3) * a
aq^2 = 9a^2 / 4 + (sqrt(3)*a)^2 /4
aq^2 = 9 a^2/ 4 + 3 a^2 / 4
aq^2 = 12 a^2/4
aq^2 = 3 a^2
aq = (sqrt 3) * a which agrees with the other two.
the answer is d
step-by-step explanation:
you can also use mathway to get you answer + steps