User Guide
Page 156
... year by year. Press Ë 8 y [u] £ „ ¹ 1 ¤ to define the new trees. PlotStart=1 Xmin=0 Ymin=0 PlotStep=1 Xmax=50 Ymax=6000 Xscl=10 Yscl=1000 6. Tracing begins at the beginning of trees after each annual harvest, 80 percent (.80) of the forestry plan). Press Ã...; 1000 ¤ to define the number of the program. 5. Press † 4000 to define the number of trees at nMin (the start of the trees remain. ...
... year by year. Press Ë 8 y [u] £ „ ¹ 1 ¤ to define the new trees. PlotStart=1 Xmin=0 Ymin=0 PlotStep=1 Xmax=50 Ymax=6000 Xscl=10 Yscl=1000 6. Tracing begins at the beginning of trees after each annual harvest, 80 percent (.80) of the forestry plan). Press Ã...; 1000 ¤ to define the number of the program. 5. Press † 4000 to define the number of trees at nMin (the start of the trees remain. ...
User Guide
Page 401
A positive result for the cash inflows and outflows. npv(interest rate,CF0,CFList[,CFFreq]) irr( (internal rate of return) is equal to zero. irr(CF0,CFList[,CFFreq]) 1000 0 5000 3000 -2000 -2500 Chapter 14: Applications 398 npv(, irr( npv( (net present value) is the sum of the cash flows is the interest rate at which the net present value of the present values for npv indicates a profitable investment.
A positive result for the cash inflows and outflows. npv(interest rate,CF0,CFList[,CFFreq]) irr( (internal rate of return) is equal to zero. irr(CF0,CFList[,CFFreq]) 1000 0 5000 3000 -2000 -2500 Chapter 14: Applications 398 npv(, irr( npv( (net present value) is the sum of the cash flows is the interest rate at which the net present value of the present values for npv indicates a profitable investment.
User Guide
Page 510
... move the cursor onto A, and then press ƒ \. Find B for N=9, and then for A is approximately 113.097. 7. Find the area given B=6, and N=10, 100, 150, 1000, and 10000. Enter B=6. Notice that as N gets large, the area A approaches pB2. To find the distance B, move the cursor onto B, and then press ƒ \. Enter... sides. Find A for a given area with radius 6), which is displayed on the interactive solver editor. 5. Now solve for B for N=10, then N=100, then N=150, then N=1000, and finally N=10000. Enter A=200 and N=6. Chapter 17: Activities 507 3.
... move the cursor onto A, and then press ƒ \. Find B for N=9, and then for A is approximately 113.097. 7. Find the area given B=6, and N=10, 100, 150, 1000, and 10000. Enter B=6. Notice that as N gets large, the area A approaches pB2. To find the distance B, move the cursor onto B, and then press ƒ \. Enter... sides. Find A for a given area with radius 6), which is displayed on the interactive solver editor. 5. Now solve for B for N=10, then N=100, then N=150, then N=1000, and finally N=10000. Enter A=200 and N=6. Chapter 17: Activities 507 3.
User Guide
Page 514
... Í to move the trace cursor to T=240, which is equivalent to 24. 7. Tmin=1 Tmax=360 Tstep=12 Xmin=0 Xmax=360 Xscl=10 Ymin=0 Ymax=1000 Yscl=100 Note: To increase the graph speed, change Tstep to 20 years of principal for each payment. 4. Press p. Enter these window variables. Set Par...
... Í to move the trace cursor to T=240, which is equivalent to 24. 7. Tmin=1 Tmax=360 Tstep=12 Xmin=0 Xmax=360 Xscl=10 Ymin=0 Ymax=1000 Yscl=100 Note: To increase the graph speed, change Tstep to 20 years of principal for each payment. 4. Press p. Enter these window variables. Set Par...