A total charge Q = 3.6 μC is distributed uniformly over aquarter circle arc of radius a = 8.8 cm as shown.
a)What is λ the linear charge density along the arc?
b)What is Ex, the value of the x-component of theelectric field at the origin (x,y) = (0,0) ?
c)What is Ey, the value of the y-component of theelectric field at the origin (x,y) = (0,0) ?
d) How does the magnitude of the electric field at the originfor the quarter-circle arc you have just calculated comnpare to theelectric field at the origin produced by a point charge Q = 3.6 μClocated a distance a = 8.8 cm from the origin along a45o line as shown in the figure?
A. The magnitude ofthe field from the point charge is less than that from thequarter-arc of charge.
B. The magnitude of thefield from the point charge is equal to that from the quarter-arcof charge
C. The magnitude of thefield from the point charge is greater than that from thequarter-arc of charge
A total charge Q = 3.6 muC is distributed uniformly over a quarter circle arc of radius a = 8.8 cm as shown.d) How does the magnitude of the electric field at the origin for the quarter - circle arc you have just calculated comnpare to the electric field at the origin produced by a point charge Q = 3.6 muC located a distance a = 8.8 cm from the origin along a 45degree line as shown in the figure? A. The magnitude of the field from the point charge is less than that from the quarter - arc of charge. B. The magnitude of the field from the point charge is equal to that from the quarter - arc of charge C. The magnitude of the field from the point charge is greater than that from the quarter - arc of chargea)What is lambda the linear charge density along the arc?b)What is Ex, the value of the x - component of the electric field at the origin (x,y) = (0,0) ?c)What is Ey, the value of the y - component of the electric field at the origin (x,y) = (0,0) ?