You can parameterize the curve
and compute the integral along each component curve, or you can use the fact that
is the continuous gradient of a function
and observe that the line integral is path independent.
In other words, there is a function
such that
, so the integral along any curve
from the points
to
is simply
You have
, and so
while
where
is an arbitrary constant. So we've found that
which means the line integral has a value of
Answer:
15000
Step-by-step explanation:
Answer:
Option F
Step-by-step explanation:
we know that
The quotient of r+5 and b is equal to divide (r+5) by b
so
The numerator is equal to (r+5) and the denominator is equal to b
substitute
Your answer would be 61/12 after you did that math all you would have left is 61/6×1/2 which would be
61/12
Answer:
12 is the LCD Solution is 10/12.
Step-by-step explanation:
LCD - Lowest Common Denominator
2/4 + 5/6
Goal - (try to get both denominators on both fractions to be the same)
2/4 + 2/6
4•3=12 6•2=12 (denominators)
then multiply each numerator by the number the denominator was multiplied by
2•3=6 2•2=4
6/12 + 4/12 = 10/12