Consider a point charge q completely enclosed by a Gaussian surface. What happens to the total flux through the surface if I keep the charge inside but decrease the size of the Gaussian surface and move the charge to a different location?
Consider a point charge q completely enclosed by a Gaussian surface. What happens to the total...
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?
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...
8) A Gaussian spherical surface of radius 0.20 m completely surrounds a collection of charges. A uniform electric field emerging from the charges has a value of.51 NC. a) Find the electric flux through the surface if the collection consists of a single charge. Use the Gauss Law to determine the magnitude of this charge inside the sphere. b)
i) If the total charge enclosed inside a Gaussian surface is zero, then E everywhere on the Gaussian surface must be zero. Circle one: True, False. Explain very briefly if you wish: ii) A spherical region (radius R, centered on the origin) has electric field E(r)=0 throughout. The voltage V(r) must also vanish throughout that region. Circle one: True, False. Explain very briefly if you wish: iii) A spherical region (radius R, centered on the origin) has voltage V(r) =...
A point charge of 8.5 pc is at the center of a cubical Gaussian surface 52 cm on an edge. (a) What is the net electric flux through the surface? N.m2/C (b) Suppose the point charge is moved 20.8 cm to the left of center. What is the net electric flux now? Nom?/C (c) Suppose the point charge is moved 52 to the left of center. What is the net electric flux now? Nm2/C
Five point charges q and four Gaussian surfaces S are shown. What is the total electric flux through surface S4? Si 4 2qto
A point charge of 1.8μC at the center of a cubical Gaussian surface 55 cm on edge. What is the net electric flux through the 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...
Consider a spherical Gaussian surface and three charges: q1 = 1.54 μC , q2 = -2.50 μC , and q3 = 3.60 μC . Find the electric flux through the Gaussian surface if it completely encloses (a) only charges q1 and q2, (b) only charges q2 and q3, and (c) all three charges. Part A Submit Request Answer Part B Submit Request Answer Part N m2/C SubmitReq Request Answer ▼ Part D Suppose a fourth charge, Q, is added to...
Review Part A Consider a spherical Gaussian surface and three charges: qi-1.55 μC , g ,--2.70 μC ' and g3- 3.52 C. Find the electric flux through the Gaussian surface if it completely encloses (a) only charges qh and q2, (b) only charges q2 and q3, and (c) all three charges Submit Part B Submit Part C N-m2/C Submit Part D Suppose a fourth charge, Q, is added to the situation described in part C. Find the sign and magnitude...