A point charge is located in the center of a spherical Gaussian surface. Changes ΦE (a) if the surface is replaced by a cube of the same volume, (b) if the sphere is replaced by a cube of one tenth of the volume, (c) if the load moves outside the center of the original sphere and stays inside, (d) if the load moves just outside the original sphere, (e) if a second charge is placed near and outside the original sphere, and (f) if a second charge is placed inside the surface Gaussian?
explain why for each letter.
A point charge is located in the center of a spherical Gaussian surface. Changes ΦE (a)...
5. Consider a point charge at the center of a spherical Gaussian surface. Explain why of why not the electric flux changed (a) if the Gaussian surface is replace with a cube having the same volume as the sphere, (b) if the cube has 1/2 the volume of the sphere, (c) if the charge is moved off-center from the original sphere yet remains inside, (d) if the charge is moved just outside the sphere, (e) if a second charge is...
A charged point particle is placed at the center of a spherical Gaussian surface. The electric flux te is changed if: Select one: O the point charge is moved off center (but still inside the original sphere) O a second point charge is placed just outside the sphere o the point charge is moved to just outside the sphere O the sphere is replaced by a cube of one-tenth the volume O the sphere is replaced by a cube of...
Three point charges are located near a spherical Gaussian surface of radius 12.5 cm. One charge (+3Q =11.4 μC) is inside the sphere, and the others (charge +Q =3.8 μC) are a distance 4.16666666666667 cm outside the surface. What is the total (net) electric flux through the Gaussian surface?
A positive point charge is placed at the center of an imaginary spherical surface. As a result, there is some total electric flux outward through the surface. For each of the changes listed below, how would the total outward flux though the surface change? The total flux increases The total flux decreases The total flux is unchanged a negative charge is placed the charge is moved off-center a positive charge is placed just outside the surface by an amount equal...
If a charge is located at the center of a spherical volume and the electric flux through the surface of the sphere is... If a charge is located at the center of a spherical volume and the electric flux through the surface of the sphere is phi, what would be the flux through the surface if the radius of the sphere were tripled?
2. The image shown is taken from the text book why n danger a) The electric feld could have broken down and her hair air surrounding her and she would have b) b) The electric field was about to cause a breakdown in the suffocated in the surrounding air and an upward streamer lightning bolt from a pessing cloud c) The electric field surrounding her would soon attract a downward d) The electric field was a would have resulted 8....
A spherical gaussian surface is drawn inside a spherical object, as shown. Upon inspection, no net charge exists within the gaussian surface. From this result, you can conclude: the object is a conductor object contains no net charge charge density throughout the object is uniform the object is hollow with a vacuum interior there is no E field in the Gaussian sphere the E field is constant within the Gaussian sphere none of the above.
If a charge is located at the center of a spherical volume and the electric flux through the surface of the sphere is Φ, what should be the flux through the surface if the radius of the sphere were tripled? Draw the diagram with a sphere of radius R and the second surface of radius 3R. Draw enough field lines to illustrate the field. Calculate the flux through each surface. What is the relationship of the flux through radius R...
If a charge is located at the center of a spherical volume and the electric flux through the surface of the sphere is Φ, what would be the flux through the surface if the radius of the sphere were tripled? 1) theta/9 2) 3theta 3) 9theta 4) theta 5) theta/3
A point charge q is located at the center of a spherical shell of radius a that has a charge -q uniformly distributed on its surface. Find the electric field for the following points: (a) for all points outside the spherical shell E = kq/r2 E = kq2/r2 E = q/4pr2 none of these E = 0 (b) for a point inside the shell a distance r from the center E = q/4pr2 E = kq2/r2 E = kq/r2 E...