Mathematics, 26.10.2020 02:00 frenchpotaetoes2832
) A company has determined that its profit for a product can be described by a linear function.
The profit from the production and sale of 150 units is $455, and the profit from
250 units is $895.
(i) What is the average rate of change of the profit for this product when
between 150 and 250 units are sold?
(ii) Write the equation of the profit function for this product.
(iii) How many units give break-even for this product?
(b) You are the CEO for a lightweight compasses manufacturer. The demand
function for the lightweight compasses is given by p = 40 β 4q
2where q
is the number of lightweight compasses produced in millions. It costs the company $15
to make a lightweight compass.
(i) Write an equation giving profit as a function of the number of lightweight compasses
produced.
(ii) At the moment the company produces 2 million lightweight compasses and makes a profit
of $18,000,000, but you would like to reduce production. What smaller number of
lightweight compasses could the company produce to yield the same profit?
Answers: 1
Mathematics, 21.06.2019 15:00
With this question! what is process of elimination? ? p.s. my brothers acc got banned so add his new one @ yamauchiyamyam17
Answers: 2
Mathematics, 21.06.2019 17:30
Is it true or false iβm trying to pass this test so i can leave school
Answers: 2
Mathematics, 21.06.2019 19:30
When 142 is added to a number the result is 64 more times the number my options are 35 37 39 41
Answers: 1
Mathematics, 21.06.2019 19:30
How are sas and sss used to show that two triangles are congruent?
Answers: 1
) A company has determined that its profit for a product can be described by a linear function.
The...
Mathematics, 19.11.2020 21:20
Biology, 19.11.2020 21:20
Mathematics, 19.11.2020 21:20
Mathematics, 19.11.2020 21:20
Mathematics, 19.11.2020 21:20
English, 19.11.2020 21:20
Mathematics, 19.11.2020 21:20
Spanish, 19.11.2020 21:20
Mathematics, 19.11.2020 21:20
Spanish, 19.11.2020 21:20
Mathematics, 19.11.2020 21:20
Mathematics, 19.11.2020 21:20
Mathematics, 19.11.2020 21:20
Mathematics, 19.11.2020 21:20