A force acting on a particle moving in the xy plane is given by F = (2yî + x²ĵ), where F is in newtons and x and y are in meters. The particle moves from the origin to a final position having coordinates x = 4.75 m and y = 4.75 m, as in the figure below. y (m) C (x, y) Z x (m) (a) Calculate the work done by F on the particle as it moves along the purple path (OAC). (b) Calculate the work done by F on the particle as it moves along the red path (OⓇC). (c) Calculate the work done by F on the particle as it moves along the blue path (OC).

Transcribed Image Text:

A force acting on a particle moving in the xy plane is given by F = (2yî + x²ĵ), where F is in newtons and x and are in meters. The particle moves from the origin to a final position having coordinates x = 4.75 m and y = 4.75 m, as in the figure below. y (m) B (x, y) A x (m) (a) Calculate the work done by F on the particle as it moves along the purple path (OAC). (b) Calculate the work done by on the particle as it moves along the red path (OⓇC). (c) Calculate the work done by F on the particle as it moves along the blue path (OC). (d) Is F conservative or nonconservative? (e) Explain your answer to part (d).

Transcribed Image Text:

In the following integrals, remember that ηΠ= ĵ · Ĵ = 1 . and î. Ĵ = 0. (a) The work is given by the following integral from the initial starting point i to the ending point f. f li We compute the integral for each displacement along the path. For the displacement from 0 to 4, W = 4.7 = -647 = = F. dr = 6 2y 4.7 4.7 S (2y + x²ĵ). (îdx) J. 2ydx where the y has been factored out of the integral because it is constant for this integration. Since along this path, y = 0, we have that dx,