Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions)
In a region of space the electric field in the x-direction and proportional to xi.e., E→=E0xiˆ. Consider an imaginary cubical volume of edge a with its sides parallel to the axes of coordinates. The charge inside this volume will be
17
Sep
In a region of space the electric field in the x-direction and proportional to xi.e., E→=E0xiˆ. Consider an imaginary cubical volume of edge a with its sides parallel to the axes of coordinates. The charge inside this volume will be E→=E0xiˆ. Consider an imaginary cubical volume of edge a with its sides parallel to the [...]
In a region of space having a spherical symmetric distribution of charge , the electric flux enclosed by a concentric spherical Gaussion surface, varies with radius r as ϕ={ϕ 0r^2/R^3, r≤R ϕ0 , <R where R and ϕ0 are the constants.
17
Sep
In a region of space having a spherical symmetric distribution of charge , the electric flux enclosed by a concentric spherical Gaussion surface, varies with radius r as ϕ={ϕ 0r^2/R^3, r≤R ϕ0 , <R where R and ϕ0 are the constants. <R where R and ϕ0 are the constants. In a region of space having [...]
Electric charge is uniformly distributed along a along straight wire of radius 1 mm. The charge per centimetre length of the wire is Q coulomb. Another cylindrical surface of radius 50 cm and length 1 m symmetrically enclose the wire ask shown in figure. The total electric flux passing through the cylindrical surface is
17
Sep
Electric charge is uniformly distributed along a along straight wire of radius 1 mm. The charge per centimetre length of the wire is Q coulomb. Another cylindrical surface of radius 50 cm and length 1 m symmetrically enclose the wire ask shown in figure. The total electric flux passing through the cylindrical surface is and [...]
A charge q is placed at the centre of the open end of cylindrical vessel. The flux of the electric field through the surface of the vessel is
17
Sep
A charge q is placed at the centre of the open end of cylindrical vessel. The flux of the electric field through the surface of the vessel is A charge q is placed at the centre of the open end of cylindrical vessel. The flux of the electric field through the surface of the vessel [...]
The electric field in a region is radially outward with magnitude E = Ay0. The charge contained in a sphere of radius y0 centered at the origin is
17
Sep
The electric field in a region is radially outward with magnitude E = Ay0. The charge contained in a sphere of radius y0 centered at the origin is The electric field in a region is radially outward with magnitude E = Ay0. The charge contained in a sphere of radius y0 centered at the origin [...]
A Gaussian surface S encloses two charges q1 = q and q2 = -q. The field at P is
17
Sep
A Gaussian surface S encloses two charges q1 = q and q2 = -q. The field at P is A Gaussian surface S encloses two charges q1 = q and q2 = -q. The field at P is September 17, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
The net electric flux through each face of a die (singular of dice) has a magnitude in units of 10^3 N. m^2/C that is exactly equal to the number of sport N on the face ( 1 through 6) the flux is inward for N odd outward for N even. What is the net charge inside the die ?
17
Sep
The net electric flux through each face of a die (singular of dice) has a magnitude in units of 10^3 N. m^2/C that is exactly equal to the number of sport N on the face ( 1 through 6) the flux is inward for N odd outward for N even. What is the net charge [...]
A uniform charge density of 500 n C/ m^3 is distributed throughout a spherical volume of radius 6.0 cm .Consider a cubical Gussian surface with its center at the centre of the sphere. What is the elcetric flux through this cubical surface if its edge length is (a) 4.00 cm and (b) 14.0 cm ?
17
Sep
A uniform charge density of 500 n C/ m^3 is distributed throughout a spherical volume of radius 6.0 cm .Consider a cubical Gussian surface with its center at the centre of the sphere. What is the elcetric flux through this cubical surface if its edge length is (a) 4.00 cm and (b) 14.0 cm ? [...]
In figure , a solid sphere of radius a = 2.00 cm is concentric with a spherical conduction shell of inner radius b = 2.00 a and outer radius c = 2.40 a. the sphere has a net uniform charge q1=+5.00C. The shell has a net charge q2=−q1. Distance (a) r=0 (b) r= a/2.00 (c) r=a (d) r = 1.50 a (e) r= 2.30a and (f) r= 3.50 a ? what si the net charge on the (g) inner and (h) outer surface of the shell ?
17
Sep
In figure , a solid sphere of radius a = 2.00 cm is concentric with a spherical conduction shell of inner radius b = 2.00 a and outer radius c = 2.40 a. the sphere has a net uniform charge q1=+5.00C. The shell has a net charge q2=−q1. Distance (a) r=0 (b) r= a/2.00 (c) [...]
Figure shows four Gaussion surfaces consisting of identical cylindrical midsections but different end caps. The surfaces central axis of each . Cylindrical midsection , the end caps have these shapes, S1 convex hemispheres S2 concave hermisphere S3 cones S4e flat disks. rank the surfaces acccording to (a) the net electric flux through them and (b) the electric flux through the top end caps , greatest first.
17
Sep
Figure shows four Gaussion surfaces consisting of identical cylindrical midsections but different end caps. The surfaces central axis of each . Cylindrical midsection , the end caps have these shapes, S1 convex hemispheres S2 concave hermisphere S3 cones S4e flat disks. rank the surfaces acccording to (a) the net electric flux through them and (b) [...]
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Figure shows four Gaussion surfaces consisting of identical cylindrical midsections but different end caps. The surfaces central axis of each . Cylindrical midsection ,
greatest first. ,
S1 convex hemispheres S2 concave hermisphere S3 cones S4e flat disks. rank the surfaces acccording to (a) the net electric flux through them and (b) the electric flux through the top end caps ,
the end caps have these shapes ,