Answer:
14
Step-by-step explanation:
A- and shut the door. A propositional phrase is described as "a modifying phrase consisting of a preposition and its object.", and that seems like the closest related answer based on the description.
Although, I'm not 100% sure on the answer, just giving an educated guess. (:
Answer:
y=3 ; x=2
Step-by-step explanation:
Just remember TIBO
top in bottom out
<span>There is a close relationship between the solutions to a linear system and the solutions to the corresponding homogeneous system:
Ax=b and Ax+0
Specifically, if x1 is any specific solution to the linear system Ax = b, then the entire solution set can be described as
x1 + x0 : x0 is any solution to Ax=0
Geometrically, this says that the solution set for Ax = b is a translation of the solution set for Ax = 0. Specifically, the flat for the first system can be obtained by translating the linear subspace for the homogeneous system by the vector x1.
This reasoning only applies if the system Ax = b has at least one solution. This occurs if and only if the vector b lies in the image of the linear transformation A.</span>
When we have a negative exponent, we use the negative exponent property: a negative exponent with it’s base must be the reciprocal of the base and negative exponent, in order to make it a positive exponent.
Solving:
(-3)^-3/1
We made the base of -3 and exponent of -3 a fraction over 1, because we will need to take the reciprocal (flipped upside down fraction) of it.
1/(-3)^3
We now have a positive exponent. We took the reciprocal of (-3)^-3/1, so we just flipped the fraction upside down to 1/(-3)^3, which gave us a positive exponent.
1/(-3)^3 = 1/(-3)(-3)(-3) by the definition of an exponent (how many times a number multiplies itself).
Now , we just simply by multiplying -3 to itself 3 times.
1/-27 is the answer.