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Problem 4:12 ptst The sides of the square is 6 meters long. Find the center of...
A square sheet with sides 3.05 meters long is held in a uniform electric field of magnitude 1.1×104 N/C. The sheet is oriented at an angle of 60° to the electric field direction (that is, the surface normal vector for the flat slide of the sheet makes a 60° angle relative to the electric field vector). What is the electric flux through the sheet ? Answer is in _____x10^4 Nm^2/C.
3) A square with sides of length 1.3 meters has 8 charges on it. Four charge of +q, +q, +q, and -q (same amount of charge for three and one has an opposite sign) are placed in the corners and four charges of twice the magnitude of -2q, -2q, -2q, and +2q are placed halfway in the middle of the sides. The total potential at center of the square due to all 8 charges is -5.2 x 104 Volts. What...
A square with sides of length 0.4 meters has 8 charges on it. Four charge of +q, +q, +q, and -q (same amount of charge for three and one has an opposite sign) are placed in the corners and four charges of twice the magnitude of -2q, -2q, -2q, and +2q are placed halfway in the middle of the sides. Here q = 9 micro-coulombs. (In other words, -q = -9 micro-coulombs and +2q is twice 9 micro-coulombs.) A ninth...
A playground is being built in the shape of a square with sides 25 meters long. For all calculations involving , use 3.14. a) How much sod (grass) would need to be bought to cover the playground? Amount of sod(grass) - Select an answer Round answers to 2 decimal place as needed. b) How much fencing would need to be bought to enclose the playground? Amount of fencing Select an answer Round answers to 2 decimal place as needed.
1) Problem 4 from chapter 4 (page 227) of the book. A square with sides of 2 m has a charge of 40 μ Cat each of its four corners. Determine the electric field at a point 5 m above the center of the square
David has 160 meters of fencing. He will use it to form three sides of a rectangular garden. The fourth side will be along a house and will not need fencing. As shown below, one of the sides has length x (in meters). Side along house (a) Find a function that gives the area A (x) of the garden (in square meters) in terms of x. (b) What side length x gives the maximum area that the garden can have?...
4. Find the explicit steady-state temperature distribution in a flat square plate having sides of unit length if the temperature on the left side is 3ey, while the other sides are kept at zero temperature
4. Find the explicit steady-state temperature distribution in a flat square plate having sides of unit length if the temperature on the left side is 3ey, while the other sides are kept at zero temperature
Four very thin rods, each 5.8 m long, are joined to form a square, as part (a) of the drawing shows. The center of mass of the square is located at the coordinate origin. The rod on the right is then removed, as shown in part (b) of the drawing. What are the x- and y-coordinates of the center of mass of the remaining three-rod system?
Four very thin rods, each 8.9 m long, are joined to form a square, as part (a) of the drawing shows. The center of mass of the square is located at the coordinate origin. The rod on the right is then removed, as shown in part (b) of the drawing. What are the x- and y-coordinates of the center of mass of the remaining three-rod system?
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Problem 3 a) Find the magnetic field H at the center of a square loop carrying a current I. The side of the square loop is b meters long. b) A circular loop that has a radius a and that carries a current I produces the same magnetic field strength at its center as that at the center of a square loop that has side b and that carries the same current I. Determine the ratio of...