Three point charge q1,q2 and q3 are shown in figure (This figure is not drawn to scale). Does it form a dipole? If it does then find the dipole moment. Use the following data: Value of q1=27nC and coordinate is (−23,42), Value of q2=27nC and coordinate is (−38,24), Value of q3=−54nC and coordinate is (45,62). These coordinates are given in nano meters and 1nC means 1.0 nano coulomb charge. a) Find the x and y components of the dipole of the given system. Now consider three infinite sheets A,B and C as shown in figure 2. These sheets lie on the xz plane and separates four different regions. Charge density of the sheets are σA=−σB=σC=27μC/m2. b) Find the x and y components of the electric field in region II
Three point charge q1,q2 and q3 are shown in figure (This figure is not drawn to scale). Does it form a dipole? If it does then find the dipole moment. Use the following data: Value of q1=27nC and coordinate is (−23,42), Value of q2=27nC and coordinate is (−38,24), Value of q3=−54nC and coordinate is (45,62). These coordinates are given in nano meters and 1nC means 1.0 nano coulomb charge.
a) Find the x and y components of the dipole of the given system.
Now consider three infinite sheets A,B and C as shown in figure 2. These sheets lie on the xz plane and separates four different regions. Charge density of the sheets are σA=−σB=σC=27μC/m2.
b) Find the x and y components of the electric field in region II.
c) Find the magnitude of the torque if the dipole from step 1 is placed in region II
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