Find the magnitude of the electric field at 0.05 [m] inside a sphere with radius 0.1 [m] carrying charge density p = 1[μC/m³]. -Use numbers when answering, rounding to the hundredths in the format 0.00 -Answer in units of [V/m]
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We are given the radius of sphere. We are also given volume charge density of sphere. We have to find electric field inside a point in sphere. We are given distance of this point from center.
The electric field is given as
Here are charge and radius of the sphere whose radius is the distance of point where field is to be calculated.
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- An infinitely long solid cylinder of radius 18 cm has a non-uniform volume charge density given by ρ=4r3 where ρ is in C/m3 when r is in meters. a)Calculate the magnitude of the electric field at a distance of 9 cm from the axis of the cylinder. b)Calculate the magnitude of the electric field at a distance of 24 cm from the axis of the cylinder.Suppose we have a charge, q1=1 μC. This charge makes an electric field some distance r=73 cm away from it. Now suppose our measurement of q1 is only accurate to within 0.2 μC, and our measurement of r is only accurate to within 1.5 cm. What is the uncertainty in our field calculation due only to the uncertainty in the charge separation r? My answer for this was 694.05 N/C which was wrong蛋白 A ball of conductor of radius RE = 3 m carries charge 2Q. Inside, it has an empty concentric spherical cavity of radius R₁ = 1.2 m. Find the charge q at radius R₁ and supply the missing numerical factor below. 9 = (_______ JQ
- = The volume charge density of the long hollow cylinder, shown in the figure below, is p: 4 x 10-5 S. If a = 10 cm and b = 15 cm. Find the electric field at: m³° a) r = 5 cm b) r = 12 cm c) r = 25 cm bAn electric field is given by the following vector: E = 9.48 x 104 N/m, at a direction of 111° W of S. The value of the horizontal component is best given byneeds complete typed solution with 100 % accuracy.
- An excess positive charge of 6.60 C is transferred to an isolated spherical conductor of radius ?=12.7 cm. What is the volume charge density within the sphere?Following the previous question, the x-component of the net electric field at x = -1.00 m, Enet.x , is N/C. Use normal format and 3 significant figures.Consider the following figure. (If you need to use co or -o, enter INFINITY or -INFINITY, respectively.) (a) Find the total electric field in N/C at x = 8.00 cm in part (b) of the figure above given that q = 1.00 uC. N/C (b) Find the total electric field in N/C at x = 11.50 cm in part (b) of the figure above. (Include the sign of the value in your answer.) N/C (c) If the charges are allowed to move and eventually be brought to rest by friction, what will the final charge configuration be? (That is, will there be a single charge, double charge, etc., and what will its value(s) be? Use the following as necessary: q.)
- The electric field at a point in space is definedas the force per unit charge at that point inspace. We can write the electric field E ofa charge q at a distance d from that charge,experienced by a charge Q, asE =FQ= kqd2.The electric field has a direction such that itpoints toward negative charges and away frompositive charges. Suppose your rub a balloonin your hair and it acquires a static charge of−2 × 10−9 C.What is the magnitude of the electric fieldcreated by the balloon at a location 1 m duenorth of the balloon? Coulomb’s constant is9 × 109 N · m2/C2.Answer in units of N/C. You hair acquired an equal amount of positivecharge when you rubbed the balloon on yourhead.What is the strength of the electric fieldcreated by your head at the location of yourfeet, 1.5 meters below?Answer in units of N/C.(10%) Problem 4: A solid aluminum sphere of radius r! 0.038 m is charged with qi = +42 μC of electric charge. It is surrounded concentrically by a spherical copper shell of inner radius r2-0.065 m and outer radius r,-0.078 m. An electric charge of q,--9 5 μC is placed on the copper shell. The situation is statio Banchi, Stephen - banchis3@students.rowan.edu @ theexpertta.com - tracking id: 2N74-2F-82-4A-BAAB-13083. In accordance with Expert TA's Terms of Service. copying this information to any solutions sharing website is strictly forbidden. Doing so may result in termination of your Expert TA Account. 25% Part (a) Find the magnitude of the electric field, in newtons per coulomb, inside 25% Part (b) What is the magnitude of the electric field, in newtons per coulomb. 25% Part (c) Find the magnitude of the electric field, in newtons per coulomb, at a the aluminum ball inside the copper of the shell, i.e., at a radius r from the center such that r2 < r3? radius of 0.051 m from the…Consider the following figure. (a) 5. 10 +9 x (cm) +9 -29 (b) - 10 +39 x (cm) --9 -29 +9 (a) Find the total electric field in N/C at x = 1.00 cm in part (b) of the figure above given that q = 1.00 µC. N/C (b) Find the total electric field in N/C at x = 12.80 cm in part (b) of the figure above. (Include the sign of the value in your answer.) N/C (c) If the charges are allowed to move and eventually be brought to rest by friction, what will the final charge configuration be? (That is, will there be a single charge, double charge, etc., and what will its value(s) be? Use the following as necessary: q.)