Using Tan^-1 please. Not a distance formula.
Using Tan^-1 please. Not a distance formula. 5) Given the following points on a circle with...
I sinta fosinta 3. (40 points) Evaluate the following integrals: (a) (10 points) sin(2 + 7)dz, where C is the square with vertices at 2i, 3i, 1+ 3i and 1+2i, in this order. (b) (10 points) sin(22) $c 2+1 where C is the positively oriented (counter-clockwise) triangle with vertices (0,0), (2,0) and (0,5). (c) (10 points) cosh(22) -dz, (3-2) where is the negatively oriented (clockwise) circle centered at (1,1) of radius 2. (d) (10 points) dz, 2-1 where C consist...
In each of the following exercises, you are given a force field F = F(x, y), in Newtons, and a oriented, closed curve C in the xy-plane, where x and y are in meters. Use Green's Theorem to calculate the work done by F along C. 9. F(x, y) = (2,5 – yº, x3 – y5), and C is the curve which starts at (0,0), moves along a line segment to (1/V2,1/V2), moves counterclockwise along the circle of radius 1,...
with mohr circle method, without using formula
[EAS152 -9 - Determine the equivalent state of stress on an element at the same point for the following cases with respects to the element shown in Figure 7 using Mohr's circle. Tentukan tegasan sclara pada eleMien pada titik yong sama untuk kes-kes berikt terhadap elemen yang ditunjukkan dalam Rajah 7 mengguna kaedah bulatan Mohr the principal stress and the coresponding orientation. [a] tegasan utama dan arah putarannya [b] the maximum in-plane shear...
Just question 5
Only question 5
In a bathtub, the velocity of water near2 the drain is given by the vector field (22 +1)2222 + 1 where r, y, and z are measured in centimeters and (0, 0,0) is at the center of the drain. 1. Rewriting F as follows, describe in words how the water is moving: Consider each of the three terms in equation (4). (Look at some plots.) For fixed z, what is the flow like? How...
Just question 6![
Just question 6!
In a bathtub, the velocity of water near2 the drain is given by the vector field (22 +1)2222 + 1 where r, y, and z are measured in centimeters and (0, 0,0) is at the center of the drain. 1. Rewriting F as follows, describe in words how the water is moving: Consider each of the three terms in equation (4). (Look at some plots.) For fixed z, what is the flow like? How...
Question 5
In a bathtub, the velocity of water near2 the drain is given by the vector field (22 +1)2222 + 1 where r, y, and z are measured in centimeters and (0, 0,0) is at the center of the drain. 1. Rewriting F as follows, describe in words how the water is moving: Consider each of the three terms in equation (4). (Look at some plots.) For fixed z, what is the flow like? How does the flow change...
answer all please
Name: Page 3 of 1 Date: File Name: Trigonometry 5 - Four Quadrants COS 3) Given 25, where is an angle in standard position terminating in quadrant IV, and sinºe+ cose - 1, what is the value of tane? cos sinº + cose-1 4) Given that sin and 5. what is a possible value of ? 5) A circle centered at the origin has a radius of 10 units. The terminal side of an angle intercepts the...
Please draw each point
PROBLEM 4 (25%) Given the following state of stress, 20 ksi 16 ksi 8 ksi Given the following state of stress, using the Mohr's circle: Determine the principal normal stresses and show their sense on a properly oriented element, “PRINCIPAL STRESS”. Show stress invariance with the original stress condition. Find the maximum shear stress with their associate normal stresses and show the results on a properly oriented element, "MAX SHEAR STRESS”. Show stress invariance with the...
Please solve them find given formula in detail clear ,thank
you
Q4. (25 points) A long straight wire carries a current of 11 = 12 A is at perpendicular distance d = 15 cm from a point P. The point P is at the center of a semicircle of radius R = 6 cm, and carries a current la = 10 A in the clockwise direction. a) (8 points) Find the magnetic field vector at point P due to the...
Please help! :)
Discussion #3 1. Consider the motion of an object that can be treated as a point particle and is traveling counter-clockwise in a circle of radius R. This motion can (and will for the purposes of these discussion activities) be described and analyzed using a Cartesian (x-y) coordinate system with a spatial origin at the center of the particle's circular trajectory (the physical path its motion traces out in space). (a) Draw a diagram of the position...