The question is missing some parts. Here is the complete question.
Mrs. Smith is making homemade silly putty for hte children in her class. Here is how the ingredients are mixed:
1/5 of the mixture is starch
1/2 of the mixture is glue
1/5 of the mixture is water
1/10 of the mixture is borax
When theingredients are mixed in the same ratio as shwon above, every batch of silly putty will be the same consistency. Study hte measurements for each batch in the table. Fill in the blanks so that every batch will have the same consistency.
Mrs. Smith wants to mix a 15-cup batch of the mixture for Mr. Brown's class. How many cups of each ingredient should she use in the mixture?
________ cups starch
________ cups glue
________ cups water
________ cups borax
Answer: 3 cups of starch;
7.5 cups of glue;
3 cups of water;
1.5 cups of borax
Step-by-step explanation: The ratio to create the same consistency for the silly putty is 1/5:1/2:1/5:1/10, which means that for the whole mixture one fifth is starch; half is glue; another one fifth is water and one tenth is borax.
For a batch of 15 cups:
Starch = 1/5.15
Starch = 3
Glue = 1/2.15
Glue = 7.5
Water = 1/5.15
Water = 3
Borax = 1/10.15
Borax = 1.5
In other words, to create a 15-cup batch of silly putty with the same consistency described above, Mrs. Smith will have to mix 3 cups of atrach, 7.5 cups of glue, 3 cups of water and 1.5 cups of borax.
4 because 4 times 24 equals 96 then 96 divided by 3 equals 32
The new girth is 22 inches; the reference girth is 20 inches. The weight is proportional to the girth, so the reference weight will get multiplied by 22/20 = 11/10.
Step-by-step explanation:
We have already seen how to approximate a function using its tangent line. This was the key idea in Euler’s
method. If we know the function value at some point (say f (a)) and the value of the derivative at the same
point (f
(a)) we can use these to find the tangent line, and then use the tangent line to approximate f (x)
for other points x. Of course, this approximation will only be good when x is relatively near a. The tangent
line approximation of f (x) for x near a is called the first degree Taylor Polynomial of f (x) and is:
f (x) ≈ f (a) + f
(a)(x − a)
Answer:
is the required quotient.
Step-by-step explanation:
We have been given the expression:
Cancel the common term which is 3 we will be left with
can be written as after prime factorization is:
And 
can be written as after prime factorization is:
Hence, the given expression would become after 2 gets cancel from numerator and denominator:
Quotient is the answer we get after dividing numerator by denominator and cancel common term which is 
is the required quotient.
