Suppose the annual revenue of a startup can be modeled by the equation R(t) = (2t)/(t...

Suppose the annual revenue of a startup can be modeled by the equation R(t) = (2t)/(t...

Suppose the annual revenue of a startup can be modeled by the equation R(t) = (2t)/(t + 3) million dollars where t is the number of years from now. A. At what rate will the annual revenue of the startup be increasing 2 years from now? Give an approximation rounded to two decimal places. B. What will be the total revenue of the startup over the next 5 years. Give an approximation rounded to two decimal places. FOR THE NEXT...

Suppose a company has a revenue stream that can be modeled by R(t)=?0.045t^2+0.72t+0.176 in millions of...

Suppose a company has a revenue stream that can be modeled by R(t)=?0.045t^2+0.72t+0.176 in millions of dollars, further suppose that costs and expenses can be modeled by C(t)=?0.012t^2+0.12t+0.091, where t is the number of years past 1985. The year in which the maximum profit occurs is __________  (If needed, round to the nearest tenth of a year.)

The revenue equation​ (in hundreds of millions of​ dollars) for barley production in a certain country...

The revenue equation​ (in hundreds of millions of​ dollars) for barley production in a certain country is approximated by R(x)=0.0726x^2+1.4468x+2.1078 where x is in hundreds of millions of bushels. Find the​ marginal-revenue equation and use it to find the marginal revenue for the production of the given number of bushels. (a) The​ marginal-revenue equation is R(x)=___ (Round to four decimal places as needed.) (b) Find the marginal revenue for the production of 400,000,000 bushels. The marginal revenue is ___ hundred...

The revenue equation​ (in hundreds of millions of​ dollars) for barley production in a certain country...

The revenue equation​ (in hundreds of millions of​ dollars) for barley production in a certain country is approximated by R(x)=0.0659x^2+1.3754x+2.2231 where x is in hundreds of millions of bushels. Find the​ marginal-revenue equation and use it to find the marginal revenue for the production of the given number of bushels. a) The​ marginal-revenue equation is R'(x)= ​(Round to four decimal places as​ needed.) ​(b) Find the marginal revenue for the production of 500,000,000 bushels. The marginal revenue is ? hundred...

The revenue equation​ (in hunderds of millions of​ dollars) for barley production in a certain country...

The revenue equation​ (in hunderds of millions of​ dollars) for barley production in a certain country is approximated by R(x)=0.0632x2 + 1.2443x + 2.2473 where x is in hundreds of millions of bushels. Find the ​marginal-revenue equation and use it to find the marginal revenue for the production of the given number of bushels. ​(a) The​ marginal-revenue equation is R′(x)= -------------------------. ​(Round to four decimal places as​ needed.) ​(b) Find the marginal revenue for the production of 200,000,000 bushels.The marginal...

Great Green, Inc determines that it’s marginal revenue per day is given by: R’(t)= 75e^t-2t, R(0)=0,...

Great Green, Inc determines that it’s marginal revenue per day is given by: R’(t)= 75e^t-2t, R(0)=0, where R(t) is the total accumulated revenue, in dollars, on the t^th day. The company’s marginal cost per day is given by: C’(t)=75-3t, C(0)=0, where C(t) is the total accumulated cost in dollars on the t^th day. a. find the total profit from t=0 to t=10 b. find the average daily profit for the first 10 days

A study suggests that the extinction rate r(t)  of marine animal families during the Phanerozoic Eon can...

A study suggests that the extinction rate r(t)  of marine animal families during the Phanerozoic Eon can be modeled by the function r(t) = 3130/(t + 262) for 0 ≤ t ≤ 544, where t  is time elapsed (in millions of years) since the beginning of the eon 544 million years ago. Thus, t = 544 refers to the present time, t = 540 is 4 million years ago, and so on. Compute the average of RN and LN with N =...

Consider the parameterized motion given by r(t)=3t^2i-2t^2j+(6-t^3)k. Where is the object at time t=1? What is...

Consider the parameterized motion given by r(t)=3t^2i-2t^2j+(6-t^3)k. Where is the object at time t=1? What is the velocity at t=1? What is the speed at t=1? How far does the object move from 0≤t≤1? Round your answer to 2 decimal places. * r, i, j, and k should all have vector arrows above them

The annual revenue earned by Target for fiscal years 2004 through 2010 can be approximated by...

The annual revenue earned by Target for fiscal years 2004 through 2010 can be approximated by R(t) = 41e0.094t billion dollars per year (0 ≤ t ≤ 7), where t is time in years (t = 0 represents the beginning of fiscal year 2004).† Estimate, to the nearest $10 billion, Target's total revenue from the beginning of fiscal year 2007 to the beginning of fiscal year 2010. $ billion

Suppose a product's revenue function is given by R(q)=−7q^2+200q, where R(q) is in dollars and q...

Suppose a product's revenue function is given by R(q)=−7q^2+200q, where R(q) is in dollars and q is the number of units sold. Use the marginal revenue function to find the approximate revenue generated by selling the 39th unit. Marginal revenue= ? dollars per unit A company selling widgets has found that the number of items sold, x, depends upon the price, p at which they're sold, according the equation x=40000√5p+1 Due to inflation and increasing health benefit costs, the company...