The histogram gives information about the ages of the 115 members
of a social club.
2.0...
Mathematics, 22.07.2020 01:01, mlittleduck6947
The histogram gives information about the ages of the 115 members
of a social club.
2.0
80% of the members who are
over 50 years old are female.
1.5
Work out an estimate for the
number of female members
who are over 50 years of age. a 1.0
Frequency density
+
0.5
20
40
60
Age in years
80
100
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 15:40, aaliyahmaile13
Yo y do yall have 2 stars that means yall wrong bro
Answers: 1
Mathematics, 21.06.2019 16:10, dhernandez081
To find the extreme values of a function f(x. y) on a curve x-x(t), y y(t), treat f as a function of the single variable t and use the chain rule to find where df/dt is zero. in any other single-variable case, the extreme values of f are then found among the values at the critical points (points where df/dt is zero or fails to exist), and endpoints of the parameter domain. find the absolute maximum and minimum values of the following function on the given curves. use the parametric equations x=2cos t, y 2 sin t functions: curves: i) the semicircle x4,y20 i) the quarter circle x2+y-4, x20, y20 b, g(x, y)=xy
Answers: 2
Mathematics, 08.12.2020 18:00
Mathematics, 08.12.2020 18:00
Mathematics, 08.12.2020 18:00
Mathematics, 08.12.2020 18:00