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1.
Charges of magnitudes 2Q and
–
Q are located at points (a,0,0) and (4a,0,0).Find the ratio of the flux of electric field ,due to these charges, through concentric spheres of radii 2a and 8a centered at the srcin. 2.
A plane wave front of width X is incident on air
–
water interface and the corresponding refracted wave front has a width Z as shown. Express the refractive index of air with respect to water, in terms of the dimension shownCharges of magnitudes 2Q and
–
Q are located at points (a,0,0) and (4a,0,0).Find the ratio of the flux of electric field ,due to these charges, through concentric spheres of radii 2a and 8a centered at the srcin. 3.
A plane wave front of width X is incident on air
–
water interface and the corresponding refracted wave front has a width Z as shown. Express the refractive index of air with respect to water, in terms of the dimension shownCharges of magnitudes 2Q and
–
Q are located at points (a,0,0) and (4a,0,0).Find the ratio of the flux of electric field ,due to these charges, through concentric spheres of radii 2a and 8a centered at the srcin. 4.
A plane wave front of width X is incident on air
–
water interface and the corresponding refracted wave front has a width Z as shown. Express the refractive index of air with respect to water, in terms of the dimension shownCharges of magnitudes 2Q and
–
Q are located at points (a,0,0) and (4a,0,0).Find the ratio of the flux of electric field ,due to these charges, through concentric spheres of radii 2a and 8a centered at the srcin. 5.
A plane wave front of width X is incident on air
–
water interface and the corresponding refracted wave front has a width Z as shown. Express the refractive index of air with respect to water, in terms of the dimension shownCharges of magnitudes 2Q and
–
Q are located at points (a,0,0) and (4a,0,0).Find the ratio of the
flux of electric field ,due to these charges, through concentric spheres of radii 2a and 8a centered at the srcin. 6.
A plane wave front of width X is incident on air
–
water interface and the corresponding refracted wave front has a width Z as shown. Express the refractive index of air with respect to water, in terms of the dimension shownCharges of magnitudes 2Q and
–
Q are located at points (a,0,0) and (4a,0,0).Find the ratio of the flux of electric field ,due to these charges, through concentric spheres of radii 2a and 8a centered at the srcin. 7.
A plane wave front of width X is incident on air
–
water interface and the corresponding refracted wave front has a width Z as shown. Express the refractive index of air with respect to water, in terms of the dimension shownCharges of magnitudes 2Q and
–
Q are located at points (a,0,0) and (4a,0,0).Find the ratio of the flux of electric field ,due to these charges, through concentric spheres of radii 2a and 8a centered at the srcin. 8.
A plane wave front of width X is incident on air
–
water interface and the corresponding refracted wave front has a width Z as shown. Express the refractive index of air with respect to water, in terms of the dimension shownCharges of magnitudes 2Q and
–
Q are located at points (a,0,0) and (4a,0,0).Find the ratio of the flux of electric field ,due to these charges, through concentric spheres of radii 2a and 8a centered at the srcin. 9.
A plane wave front of width X is incident on air
–
water interface and the corresponding refracted wave front has a width Z as shown. Express the refractive index of air with respect to water, in terms of the dimension shownCharges of magnitudes 2Q and
–
Q are located at points (a,0,0) and (4a,0,0).Find the ratio of the flux of electric field ,due to these charges,
through concentric spheres of radii 2a and 8a centered at the srcin. 10.
A plane wave front of width X is incident on air
–
water interface and the corresponding refracted wave front has a width Z as shown. Express the refractive index of air with respect to water, in terms of the dimension shownCharges of magnitudes 2Q and
–
Q are located at points (a,0,0) and (4a,0,0).Find the ratio of the flux of electric field ,due to these charges, through concentric spheres of radii 2a and 8a centered at the srcin. 11.
A plane wave front of width X is incident on air
–
water interface and the corresponding refracted wave front has a width Z as shown. Express the refractive index of air with respect to water, in terms of the dimension shownCharges of magnitudes 2Q and
–
Q are located at points (a,0,0) and (4a,0,0).Find the ratio of the flux of electric field ,due to these charges, through concentric spheres of radii 2a and 8a centered at the srcin. 12.
A plane wave front of width X is incident on air
–
water interface and the corresponding refracted wave front has a width Z as shown. Express the refractive index of air with respect to water, in terms of the dimension shownCharges of magnitudes 2Q and
–
Q are located at points (a,0,0) and (4a,0,0).Find the ratio of the flux of electric field ,due to these charges, through concentric spheres of radii 2a and 8a centered at the srcin. 13.
A plane wave front of width X is incident on air
–
water interface and the corresponding refracted wave front has a width Z as shown. Express the refractive index of air with respect to water, in terms of the dimension shownCharges of magnitudes 2Q and
–
Q are located at points (a,0,0) and (4a,0,0).Find the ratio of the flux of electric field ,due to these charges, through concentric spheres of radii 2a and 8a centered at the srcin.
14.
A plane wave front of width X is incident on air
–
water interface and the corresponding refracted wave front has a width Z as shown. Express the refractive index of air with respect to water, in terms of the dimension shownCharges of magnitudes 2Q and
–
Q are located at points (a,0,0) and (4a,0,0).Find the ratio of the flux of electric field ,due to these charges, through concentric spheres of radii 2a and 8a centered at the srcin. 15.
A plane wave front of width X is incident on air
–
water interface and the corresponding refracted wave front has a width Z as shown. Express the refractive index of air with respect to water, in terms of the dimension shownCharges of magnitudes 2Q and
–
Q are located at points (a,0,0) and (4a,0,0).Find the ratio of the flux of electric field ,due to these charges, through concentric spheres of radii 2a and 8a centered at the srcin. 16.
A plane wave front of width X is incident on air
–
water interface and the corresponding refracted wave front has a width Z as shown. Express the refractive index of air with respect to water, in terms of the dimension shownCharges of magnitudes 2Q and
–
Q are located at points (a,0,0) and (4a,0,0).Find the ratio of the flux of electric field ,due to these charges, through concentric spheres of radii 2a and 8a centered at the srcin. 17.
A plane wave front of width X is incident on air
–
water interface and the corresponding refracted wave front has a width Z as shown. Express the refractive index of air with respect to water, in terms of the dimension shownCharges of magnitudes 2Q and
–
Q are located at points (a,0,0) and (4a,0,0).Find the ratio of the flux of electric field ,due to these charges, through concentric spheres of radii 2a and 8a centered at the srcin. 18.
A plane wave front of width X is incident on air
–
water interface and the

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