−3cm
A charge particle q is shifted from point 1 to point 2 in the electric field of a straight long linear charge of λ. i. Find the electric work done if r^1 = R and r^2 = 2R ii. Find the potential difference between 1 and 2.
31
Aug
A charge particle q is shifted from point 1 to point 2 in the electric field of a straight long linear charge of λ. i. Find the electric work done if r^1 = R and r^2 = 2R ii. Find the potential difference between 1 and 2. −3cm 0 ) 3cm and 0 A nonconducting [...]
Tags:
−3cm ,
0 ) ,
3cm and 0 ,
A nonconducting sphere of radius R = 5 cm has its center at the origin O of the coordinate system as shown in (Fig. 3.112). It has two spherical cavities of radius r=1cm ,
and solid material of the sphere has uniform positive charge density ρ=1/πμ Cm^−3. Calculate the electric potential at point P(4 cm ,
respectively ,
whose centers are at 0 ,
A nonconducting sphere of radius R = 5 cm has its center at the origin O of the coordinate system as shown in (Fig. 3.112). It has two spherical cavities of radius r=1cm, whose centers are at 0,3cm and 0,−3cm, respectively, and solid material of the sphere has uniform positive charge density ρ=1/πμ Cm^−3. Calculate the electric potential at point P(4 cm,0).
31
Aug
A nonconducting sphere of radius R = 5 cm has its center at the origin O of the coordinate system as shown in (Fig. 3.112). It has two spherical cavities of radius r=1cm, whose centers are at 0,3cm and 0,−3cm, respectively, and solid material of the sphere has uniform positive charge density ρ=1/πμ Cm^−3. Calculate [...]
Tags:
−3cm ,
0 ) ,
3cm and 0 ,
A nonconducting sphere of radius R = 5 cm has its center at the origin O of the coordinate system as shown in (Fig. 3.112). It has two spherical cavities of radius r=1cm ,
and solid material of the sphere has uniform positive charge density ρ=1/πμ Cm^−3. Calculate the electric potential at point P(4 cm ,
respectively ,
whose centers are at 0 ,