Answer
2048 ounces
Step-by-step explanation:
Because a pound= 16 ounces we times 8 by 16 to get ounces, then once we get how many ounces we can then times it by 16. Thus we get the answer 2048 ounces or if you want the answer in pounds we divide the number by 16 which gives us the answer 256 pounds.
Answer:
hello i am new to this app. sorry if i did something i am just trying how this app works
Step-by-step explanation:
Answer:
Step-by-step explanation:
4
For example long division of 30 by 2 first 2 divided by 3 is 1 put it down then multiply 1 by 2 and subract then just repeat
Answer:
(a) Three polynomials of degree 1 with real coefficients belong to the set 
, then:
(b) Three polynomials of degree 1 with real coefficients that hold the relation 
belong to the set 
. The relation between the coefficients is equivalent to 
, then:
Step-by-step explanation:
(a) Three polynomials of degree 1 with real coefficients belong to the set , then:
A vector space is any set whose elements hold the following axioms for any 
and 
and for any scalar 
and 
:
- There is the <em>zero element </em>such that:
- For all element
of the set, there is an element 
such that: 
Let's proof each of them for the first set. For the proof, I will define the polynomials 
, 
and 
and the scalar 
and 
.
and defining 
and 
, we obtain 
which is another polynomial that belongs to 
- A null polynomial is define as the one with all it coefficient being 0, therefore:
- Defining the inverse element in the addition as
, then 
![a[b(a_0+a_1x)] = ab (a_0+a_1x)\\a[ba_0+ba_1x] = aba_0+aba_1x\\\boxed{aba_0+aba_1x = aba_0+aba_1x}](https://tex.z-dn.net/?f=a%5Bb%28a_0%2Ba_1x%29%5D%20%3D%20ab%20%28a_0%2Ba_1x%29%5C%5Ca%5Bba_0%2Bba_1x%5D%20%3D%20aba_0%2Baba_1x%5C%5C%5Cboxed%7Baba_0%2Baba_1x%20%3D%20aba_0%2Baba_1x%7D)
![\boxed{a[(a_0+a_1x)+(b_0+b_1x)] = a(a_0+a_1x) + a(b_0+b_1x)}](https://tex.z-dn.net/?f=%5Cboxed%7Ba%5B%28a_0%2Ba_1x%29%2B%28b_0%2Bb_1x%29%5D%20%3D%20a%28a_0%2Ba_1x%29%20%2B%20a%28b_0%2Bb_1x%29%7D)
With this, we proof the set is a vector space with the usual polynomial addition and scalar multiplication operations.
(b) Three polynomials of degree 1 with real coefficients that hold the relation belong to the set . The relation between the coefficients is equivalent to , then:
Let's proof each of axioms for this set. For the proof, I will define again the polynomials , and and the scalar and . Again the relation between the coefficients holds
![[(a_0+a_1x) +( b_0+b_1x)]+(c_0+c_1x) = (a_0+a_1x) +[( b_0+b_1x)+(c_0+c_1x)]\\(a_0+b_0+c_0) + (a_1+b_1+c_1)x = (a_0+b_0+c_0) + (a_1+b_1+c_1)x](https://tex.z-dn.net/?f=%5B%28a_0%2Ba_1x%29%20%2B%28%20b_0%2Bb_1x%29%5D%2B%28c_0%2Bc_1x%29%20%3D%20%28a_0%2Ba_1x%29%20%2B%5B%28%20b_0%2Bb_1x%29%2B%28c_0%2Bc_1x%29%5D%5C%5C%28a_0%2Bb_0%2Bc_0%29%20%2B%20%28a_1%2Bb_1%2Bc_1%29x%20%3D%20%28a_0%2Bb_0%2Bc_0%29%20%2B%20%28a_1%2Bb_1%2Bc_1%29x)
and considering the coefficient relation and defining and , we have 
which is another element of the set since it is a degree one polynomial whose coefficient follow the given relation.
The proof of the other axioms can be done using the same logic as in (a) and checking that the relation between the coefficients is always the same.
Answer:
−4/3
or -4/3x
or (Decimal: -1.333333)
Step-by-step explanation:
