Mathematics, 24.02.2020 04:58 jackolantern1437
Jeanne babysits for $6 per hour. She also works as a reading tutor for $10 per hour. She is only allowed to work 20
hours per week. This week, her goal is to make at least $75.
A. Use a system of inequalities to model the scenario above. Let x represent babysitting hours and y represent tutoring
hours.
B. Use the model created in part A to create a graph representing Jeanne's probable income earned and possible
number of hours worked this week.
C. Analyze the set of coordinate values that represent solutions for the model created in part A. Choose one of the
- mates within the solution and algebraically prove that the coordinate represents a true solution for the model.
Answers: 1
Mathematics, 21.06.2019 19:30, jrassicworld4ever
Need now max recorded the heights of 500 male humans. he found that the heights were normally distributed around a mean of 177 centimeters. which statements about max’s data must be true? a) the median of max’s data is 250 b) more than half of the data points max recorded were 177 centimeters. c) a data point chosen at random is as likely to be above the mean as it is to be below the mean. d) every height within three standard deviations of the mean is equally likely to be chosen if a data point is selected at random.
Answers: 1
Mathematics, 21.06.2019 21:30, gigglegirl5802
Select all the statements that apply to this figure
Answers: 2
Mathematics, 21.06.2019 22:00, kharmaculpepper
Question 13 (1 point) jerome is starting a new job. his contract states he will earn $42,000 the first year, and will get a 4% raise per year. which function s(x) represents jerome's salary after a certain number of years, x?
Answers: 1
Jeanne babysits for $6 per hour. She also works as a reading tutor for $10 per hour. She is only all...
Mathematics, 27.01.2022 22:00
History, 27.01.2022 22:00
Social Studies, 27.01.2022 22:00
Mathematics, 27.01.2022 22:00
Mathematics, 27.01.2022 22:00
Computers and Technology, 27.01.2022 22:00
Mathematics, 27.01.2022 22:00
English, 27.01.2022 22:00