Find the derivative of the function by using the rules of differentiation.
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Use reduction formulas to evaluate the integral.

A. sec² 6x tan 6x + ln + C
B. sec 6x tan 6x + ln + C
C. sec 6x tan 6x - ln + C
D. sec 6x tan 6x + ln + C

The energy economy of an area is composed of four industries: gas, coal, hydroelectric, and nuclear. The three main consumers of energy are area residential consumers, a manufacturing plant, and a university. Assume that each consumer may use some of the energy produced by each industry, and also that each industry uses some of the energy produced by each of the other industries. The energy needs of each consumer and industry is represented by a demand vector whose entries, in order, give the amount of gas, coal, hydroelectric, and nuclear energy needed by each consumer or industry, in some convenient units. The demand vectors for the consumers are:  

src="https://sciemce.com/media/4/ppg__tttt0616191201__f1q139g2.jpg" alt="" style="vertical-align: -8.0px;" />  and the demand vectors for the industries are:     The price of gas is  per unit, the price of coal is  per unit, the price of hydroelectric power is  per unit, and the price of nuclear energy is  per unit. These prices can be represented by the (column) price vector: P = Use the matrix operations on a graphing calculator to find the income earned by the hydroelectric industry and its cost for the other forms of energy it uses. Then calculate its profit.

What will be an ideal response?

Solve the problem.The future value of  invested for 5 years at rate r, compounded annually, is given by . Find the rate r, as a percent, that gives a future value from $5610 to $6442, inclusive. Round to the nearest whole percent.

A. 8% ? r ? 13% B. 7% ? r ? 15% C. 6% ? r ? 9% D. 7% ? r ? 10%

Solve.4x - 2 = 5(x + 7)

A. 37 B. -33 C. -37 D. 33