1.  Given the demand function D(p)=100−3p^2, Find the Elasticity of Demand at a

1.  Given the demand function D(p)=100−3p^2, Find the Elasticity of Demand at a price of $4   At this price, we would say the demand is: Inelastic Elastic Unitary Based on this, to increase revenue we should: Raise Prices Keep Prices Unchanged Lower Prices 2.  Given that f'(x)=−5(x−5)(x+4), The graph of f(x)f(x) at x=3 is… Continue reading 1.  Given the demand function D(p)=100−3p^2,
Find the Elasticity of Demand at a

1.  Farmer Jones, and his wife, Dr. Jones, decide to build a fence in their fiel

1.  Farmer Jones, and his wife, Dr. Jones, decide to build a fence in their field, to keep the sheep safe. Since Dr. Jones is a mathematician, she suggests building fences described by y=2x^2 and y=x^2+8. Farmer Jones thinks this would be much harder than just building an enclosure with straight sides, but he wants… Continue reading 1.  Farmer Jones, and his wife, Dr. Jones, decide to build a fence in their fiel

1.  Evaluate the integral ∫x5(x^6−10)^47dx by making the substitution u=x^6−10.

1.  Evaluate the integral ∫x5(x^6−10)^47dx by making the substitution u=x^6−10. =_+C 2. Evaluate the indefinite integral. ∫7dx/xln(8x) =_  + C 3.  Evaluate the indefinite integral. ∫x^8e^x^9dx =_+C 4.  Evaluate the indefinite integral. ∫x4(15+x^5)^1/2dx =_+C 5.  Evaluate the indefinite integral. ∫4/(t+5)^8 dt =_+C 6.  Evaluate the indefinite integral:  ∫x/x^2+4 dx =_+C 7.   A cell culture contains… Continue reading 1.  Evaluate the integral
∫x5(x^6−10)^47dx
by making the substitution u=x^6−10.