Find the approximate area under the curve by dividing the intervals into n subintervals and then adding up the areas of
Posted: Mon Jul 11, 2022 10:49 am
Find the approximate area under the curve by dividing theintervals into n subintervals and then adding up the areas ofthe inscribed rectangles. The height of each rectangle may be foundby evaluating the function for each valueof x. Your instructor will assign you n1and n2.
n1= 10 and n2=6
- between x=0 and x=6 for n1and n2
-Find the exact area under the curve using integration between x=0 and x=6
Explain the reason for the difference in your answers.
For this discussion, you will work in groups to find the area and answer questions. Find the approximate area under the curve by dividing the intervals into n subintervals and then adding up the areas of the inscribed rectangles. The height of each rectangle may be found by evaluating the function for each value of x. Your instructor will assign you 71 and 7₂. • y = 2x√² + 1 between = 0 and x = 2 6 for ₁ and n₂ • Find the exact area under the curve using integration y = 2√² +1 between z = 0 and 2 = 6 Explain the reason for the difference in your answers.
n1= 10 and n2=6
- between x=0 and x=6 for n1and n2
-Find the exact area under the curve using integration between x=0 and x=6
Explain the reason for the difference in your answers.
For this discussion, you will work in groups to find the area and answer questions. Find the approximate area under the curve by dividing the intervals into n subintervals and then adding up the areas of the inscribed rectangles. The height of each rectangle may be found by evaluating the function for each value of x. Your instructor will assign you 71 and 7₂. • y = 2x√² + 1 between = 0 and x = 2 6 for ₁ and n₂ • Find the exact area under the curve using integration y = 2√² +1 between z = 0 and 2 = 6 Explain the reason for the difference in your answers.