-btvb2-4ac
Mathematics, 03.05.2021 15:20, nekobaby75
Use the quadratic formula to find the exact solutions of x2 - 5x - 2 = 0.
X=-
-btvb2-4ac
2a
Ox=
5+33
2
Ox=
-5+ 33
2
5+117
X=
2.
0
-5+17
X=
2
Answers: 2
Mathematics, 21.06.2019 13:00, jiskd
Do not comment if you aren’t going to . create a real-life situation and create a system and show how it might be modeled algebraically with a system of equations (or inequalities) show all work include a few sentences explaining the situation, your variables of choice and what each represents, and how you would set it up and solve it algebraically. !
Answers: 1
Mathematics, 21.06.2019 15:00, Shavaila18
The data shown in the table below represents the weight, in pounds, of a little girl, recorded each year on her birthday. age (in years) weight (in pounds) 2 32 6 47 7 51 4 40 5 43 3 38 8 60 1 23 part a: create a scatter plot to represent the data shown above. sketch the line of best fit. label at least three specific points on the graph that the line passes through. also include the correct labels on the x-axis and y-axis. part b: algebraically write the equation of the best fit line in slope-intercept form. include all of your calculations in your final answer. part c: use the equation for the line of best fit to approximate the weight of the little girl at an age of 14 years old.
Answers: 3
Mathematics, 21.06.2019 21:30, mandyangle01
Using pert, adam munson was able to determine that the expected project completion time for the construction of a pleasure yacht is 21 months, and the project variance is 4. a) what is the probability that the project will be completed in 17 months? b) what is the probability that the project will be completed in 20 months? c) what is the probability that the project will be completed in 23 months? d) what is the probability that the project will be completed in 25 months? e) what is the due date that yields a 95% chance of completion?
Answers: 3
Use the quadratic formula to find the exact solutions of x2 - 5x - 2 = 0.
X=-
-btvb2-4ac
-btvb2-4ac
Computers and Technology, 04.12.2020 21:30
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