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15. Suppose that Jo f(z) dã§= 8, 15 f(z) dz= 1, and 17 f(x) dã§=-2. Compute 10 f(x)dz. 6x2 + 2 from = 0 to x-2. 16. Find the area under the curve y 17. Use Riemann suns to show that using the fact that 4 TI 18. Write, but do not evaluate, a (left) Riemann sum with 5 terms for the integralin d 1 3 19. Solve the Initial Value Problem dy da y(0) = 0 20. Solve the Initial Value Problem ds dt Show transcribed image text 15. Suppose that Jo f(z) dã§= 8, 15 f(z) dz= 1, and 17 f(x) dã§=-2. Compute 10 f(x)dz. 6x2 + 2 from = 0 to x-2. 16. Find the area under the curve y 17. Use Riemann suns to show that using the fact that 4 TI 18. Write, but do not evaluate, a (left) Riemann sum with 5 terms for the integralin d 1 3 19. Solve the Initial Value Problem dy da y(0) = 0 20. Solve the Initial Value Problem ds dt
15. Suppose that Jo f(z) dã§= 8, 15 f(z) dz= 1, and 17 f(x) dã§=-2. Compute 10 f(x)dz. 6x2 + 2 from = 0 to x-2. 16. Find the area under the curve y 17. Use Riemann suns to show that using the fact that 4 TI 18. Write, but do not evaluate, a (left) Riemann sum with 5 terms for the integralin d 1 3 19. Solve the Initial Value Problem dy da y(0) = 0 20. Solve the Initial Value Problem ds dt
Show transcribed image text 15. Suppose that Jo f(z) dã§= 8, 15 f(z) dz= 1, and 17 f(x) dã§=-2. Compute 10 f(x)dz. 6x2 + 2 from = 0 to x-2. 16. Find the area under the curve y 17. Use Riemann suns to show that using the fact that 4 TI 18. Write, but do not evaluate, a (left) Riemann sum with 5 terms for the integralin d 1 3 19. Solve the Initial Value Problem dy da y(0) = 0 20. Solve the Initial Value Problem ds dt 1
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Jamar FerryLv2
25 Apr 2019