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Question 6 Determine the line integral along the straight line c from point A to d. Find the para...
Question 5 Determine the line integral along the straight line C from point A to B....
Question 5 Determine the line integral along the straight line C from point A to B. Find the parametric form of the line C. Use the vector field Use the following values: a 1 2; a2-4; and a3-2 a-6: b-4; and -44 degrees.
can y'all help with with these 3 please!! Thank you!! Question 1 Find the volume beneath...
can y'all help with with these 3 please!! Thank you!! Question 1 Find the volume beneath z = f(x,y) and above the region described by the triangle with vertices (0,0), (4,0), and (0,4). f(x,y)= -x-y+c ; use c = 7. Hint: compute the double integral required to find the volume under f(x,y) using the limits of integration given by the region on the x-y plane. Question 2 Prove that F is a gradient field and determine the work of F...
(1 point) Determine whether the line integral of each vector field (in blue) along the semicircular, oriented path (in red) is positive, negative, or zero Choose Choose v Choose (1 point) De...
(1 point) Determine whether the line integral of each vector field (in blue) along the semicircular, oriented path (in red) is positive, negative, or zero Choose Choose v Choose
(1 point) Determine whether the line integral of each vector field (in blue) along the semicircular, oriented path (in red) is positive, negative, or zero Choose Choose v Choose
Problem 1 1. Determine the work done by force F along the path C, that is,...
Problem 1 1. Determine the work done by force F along the path C, that is, compute the line integral Si di from point A to point B. You need to find the parameterization of the curve C and use it to find the line integral: Work = [ Fudi =[F(F(t)."(t)dt Use F = (- y) { +(x)ì in Newtons. and use a = 4 and b = 5 meters in the figure. Parameterization of a straight line: Remember that...
point) Determine whether the line Integral of each vector field (n blue) along the semicircular, oriented...
point) Determine whether the line Integral of each vector field (n blue) along the semicircular, oriented path(in red is positive, negative of zero. LLLL Zero Negative : Positive Positive Positive (Click on a graph to enlarge it)
с 1. Determine the work done by force F along the path C, that is, compute...
с 1. Determine the work done by force F along the path C, that is, compute the line integral F.dr from point A to point B. You need to find the parameterization of the curve C and use it to find the line integral: Work = ff.dr =[F(F(t)). 7"(t)dt с с Use F = (-y)ỉ +(x)ì in Newtons. and use a = 4 and b = 5 meters in the figure. Parameterization of a straight line: Remember that for any...
Determine whether the following assertions are true or false 1. The double integral JJDy2dA, wher...
Can you do 3 and 6
Determine whether the following assertions are true or false 1. The double integral JJDy2dA, where D is the disk x2 +y2く1, is equal to π/3 2. The iterated integral J^S 4drdy is equal to 3. The center of mass of the triangular lamina that occupies the region D- 10 4. The triple integral of a function f over the solid tetrahedron with vertices (0,0,0), x < 3,0 < y < 3-2) and has a...
A.) charge +Q is distributed uniformly along a straight line of length L. Find the Electric...
A.) charge +Q is distributed uniformly along a straight line of length L. Find the Electric field at a point P along the direction of the line a distance d from it. Calculate the electric field strength if Q = + 6 μC , L= 0.10m and d = 0.05m. B.) With the same charge distribution, calculate the electric field strength at a point a distance d = 0.05m above or below the mid-point of the charged line.
A helicopter starts from rest at point A and travels along the straight-line path with a...
A helicopter starts from rest at point A and travels along the straight-line path with a constant acceleration a. If the speed v = 33 m/s when the altitude of the helicopter is h = 44 m, determine the values of r, i, o, and as measured by the tracking device at O. At this instant, 0 = 38°, and the distance d = 159 m. Neglect the small height of the tracking device above the ground. ih А d...
Q4 please and thank you (3) You are given that the vector field f in Q2 is conservative. Find the corresponding potential function and use this to check the line integral evaluated in Q2. (4) Conside...
Q4 please and thank you
(3) You are given that the vector field f in Q2 is conservative. Find the corresponding potential function and use this to check the line integral evaluated in Q2. (4) Consider the vector field F(x, y) -ryi - 2j (-Fii F2j) and let C be the closed curve consisting of three segments: the straight line from (0, 0) to (1,0) followed by the circular arc from (1,0) to (0,1) followed by the straight line from...
Question 5 Determine the line integral along the straight line C from point A to B. Find the parametric form of the line C. Use the vector field Use the following values: a 1 2; a2-4; and a3-2 a-6: b-4; and -44 degrees.
(1 point) Determine whether the line integral of each vector field (in blue) along the semicircular, oriented path (in red) is positive, negative, or zero Choose Choose v Choose
(1 point) Determine whether the line integral of each vector field (in blue) along the semicircular, oriented path (in red) is positive, negative, or zero Choose Choose v Choose
Problem 1 1. Determine the work done by force F along the path C, that is, compute the line integral Si di from point A to point B. You need to find the parameterization of the curve C and use it to find the line integral: Work = [ Fudi =[F(F(t)."(t)dt Use F = (- y) { +(x)ì in Newtons. and use a = 4 and b = 5 meters in the figure. Parameterization of a straight line: Remember that...
point) Determine whether the line Integral of each vector field (n blue) along the semicircular, oriented path(in red is positive, negative of zero. LLLL Zero Negative : Positive Positive Positive (Click on a graph to enlarge it)
с 1. Determine the work done by force F along the path C, that is, compute the line integral F.dr from point A to point B. You need to find the parameterization of the curve C and use it to find the line integral: Work = ff.dr =[F(F(t)). 7"(t)dt с с Use F = (-y)ỉ +(x)ì in Newtons. and use a = 4 and b = 5 meters in the figure. Parameterization of a straight line: Remember that for any...
Can you do 3 and 6
Determine whether the following assertions are true or false 1. The double integral JJDy2dA, where D is the disk x2 +y2く1, is equal to π/3 2. The iterated integral J^S 4drdy is equal to 3. The center of mass of the triangular lamina that occupies the region D- 10 4. The triple integral of a function f over the solid tetrahedron with vertices (0,0,0), x < 3,0 < y < 3-2) and has a...
A helicopter starts from rest at point A and travels along the straight-line path with a constant acceleration a. If the speed v = 33 m/s when the altitude of the helicopter is h = 44 m, determine the values of r, i, o, and as measured by the tracking device at O. At this instant, 0 = 38°, and the distance d = 159 m. Neglect the small height of the tracking device above the ground. ih А d...
Q4 please and thank you
(3) You are given that the vector field f in Q2 is conservative. Find the corresponding potential function and use this to check the line integral evaluated in Q2. (4) Consider the vector field F(x, y) -ryi - 2j (-Fii F2j) and let C be the closed curve consisting of three segments: the straight line from (0, 0) to (1,0) followed by the circular arc from (1,0) to (0,1) followed by the straight line from...
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