Question

Draw a graph of the triangle having vertices at (−1, 0) and (1, 1) and (2,...

  1. Draw a graph of the triangle having vertices at (−1, 0) and (1, 1) and (2, 0).
    (a) Find an equation for each of the lines that make up the sides of the triangles. (b) Use integration to determine the area of the triangle using vertical slices.

  2. Consider the triangle from Exercise 1. This time, use integration to determine the area of the triangle using horizontal slices. You should get the same answer that you got in Exercise 1. (Which did you find easier?)

Homework Answers

Answer #1

For any doubt please ask me...and if you are Satisfied please thumbs up for this answer

Know the answer?
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Not the answer you're looking for?
Ask your own homework help question
Similar Questions
Find the area of a triangle with vertices A (1, 4, -1), B (-1, 2, 0),...
Find the area of a triangle with vertices A (1, 4, -1), B (-1, 2, 0), C (1, 1, 3).
Use calculus to find the area A of the triangle with the given vertices. (0, 0),    (4,...
Use calculus to find the area A of the triangle with the given vertices. (0, 0),    (4, 1),    (1, 6) A =
Use integrals to represent the area of the region enclosed by the triangle with vertices (0,−1),...
Use integrals to represent the area of the region enclosed by the triangle with vertices (0,−1), (4,3), and (5,1). then, calculate the area of the triangle.
Use calculus to find the area A of the triangle with the given vertices. (0, 0),    (4,...
Use calculus to find the area A of the triangle with the given vertices. (0, 0),    (4, 2),    (2, 6)
5. (9 pts) Find the area of the triangle with vertices at (1, 2), (5, 7),...
5. (9 pts) Find the area of the triangle with vertices at (1, 2), (5, 7), and (3, 3) u = 〈4, 5, 0〉 and v = 〈2, 1, 0〉
1. Find the area of the parallelogram that has the given vectors as adjacent sides. Use...
1. Find the area of the parallelogram that has the given vectors as adjacent sides. Use a computer algebra system or a graphing utility to verify your result. u = 3, 2, −1 v = 1, 2, 3 3. Find the area of the triangle with the given vertices. Hint: 1 2 ||u ✕ v|| is the area of the triangle having u and v as adjacent sides. A(4, −5, 6), B(0, 1, 2), C(−1, 2, 0)
Consider the function f:R?R given by f(x,y)=(2-y,2-x). (b) Draw the triangle with vertices A = (1,...
Consider the function f:R?R given by f(x,y)=(2-y,2-x). (b) Draw the triangle with vertices A = (1, 2), B = (3, 1), C = (3, 2), and the triangle with vertices f(A),f(B),f(C). (c) Is f a rotation, a translation, or a glide reflection? Explain your answer.
1. (a) Use the graph paper provided to sketch the region bounded by the x-axis and...
1. (a) Use the graph paper provided to sketch the region bounded by the x-axis and the lines x + y = 4 and y = 3x. (b) Shade the region you just drew above. (c) Suppose that you were going to use Calculus to compute the area of the shaded region in part (a) above. If you chose the x-axis as your axis of integration, then how many integrals would be needed to compute this area? (d) Suppose that...
#1 The three charges are at the three vertices of a right triangle as shown in...
#1 The three charges are at the three vertices of a right triangle as shown in the figure below. q 1 = + 3.0 µC q 2 = - 3 .0 µC q 3 = - 2 .0 µC 1 µC = 10-6 Right Triangle: q1 to q2 = 5.0m/ q1 to q3 = 3.0m / q2 to q3 = 4.0m Formulas: K = 9.0 X 10 9 N m2/ C2 Fx = F cos θ Fy = F sin...
1.) For this exercise you will need to first build a graph to these specifications: Draw...
1.) For this exercise you will need to first build a graph to these specifications: Draw a budget constraint with vertical intercept (0,8) and horizontal intercept (4,0). Zach’s indifference curves are downward sloping straight lines with a slope of -1 i.e. they all have vertical intercept (0,N) and horizontal intercept (N,0) for some number N. Draw Zach’s indifference curves. Label the bundle(s) that Zach will consume when optimizing. 2.) Now suppose the price of the “x-good” falls to become 4...
ADVERTISEMENT
Need Online Homework Help?

Get Answers For Free
Most questions answered within 1 hours.

Ask a Question
ADVERTISEMENT