Answer:
131/3
Step-by-step explanation:
Using definite integral
from 1-5 = - 128/3 (make it + because distance isn't vector quantity)
from 5-6 = 13/3
so distance = 128/3 + 13/3 = 131/3 m
Answer:
When we have a function y = f(x) we define the domain as the set of the values of x, and the range as the set of the values of y.
In this case we have the function:
E(c) where c represents the number of cupcakes sold by the team.
In this case, the domain will be the possible values that c can take.
The restrictions are:
c ≥ 0.
They can not sell a negative number of cupcakes.
c must be an integer because they can not sell a 0.342 of a cupcake, so the domain is discrete.
c may have an upper limit (for example, if they made 500 cupcakes, they can not sell more than 500) But we do not know any upper limit, so we can ignore this restriction.
Then we can define the domain as:
D = {0, 1, 2, 3, ...}
Answer:
Perimeter : 22.81 to the nearest hundredths
Area: 24 square units
Step-by-step explanation:
The vertices of ∆ABC are located at A(-2, 2), B(6, 2), and C(0, 8).
The perimeter is the distance around the figure.
Use the distance formula to find the side lengths of the triangle and add them up.
The distance formula is
units
units
units
The perimeter is 8+6.32+8.49=22.81 units
The area of this triangle is given by: (see attachment)
square units.