basic concept of calculus has been used to solve this problem.
7. 1/2 points SerPSE? 25.P 035.soln. My Notes Ask Your Teacher A rod of length L...
A rod of Length L lies along the x axis with its left end at the origin. It has a nonuniform charge density lambda = alpha x, where alpha is a positive constant. Calculate the electric potential at point B, which lies on the perpendicular bisector of the rod a distance b above the x-axis. (Use the following as necessary: alpha, k_, L, b, and d.) v = A wire having a uniform linear charge density lambda is bent into...
My Notes Ask Your Teacher SerPSE9 29.P.035.WI. -/2 points straight section of the wire is 0.750 m long and lies along the y axis within a uniform magnetic field, B = 1.50 k T. If the current is in the wire carries a steady current of 2.00 A negative y direction, what is the magnetic force on the section of wire? Magnitude N Direction --Select- Need Help? Read It Watch It
6. DETAILS KATZPSEF1 24.P.024.MI. ASK YOUR TEACHER A positively charged rod of length - 0.220 m with linear charge density - 2.63 mc/m lies along the x axis as in the figure. Find the electric field at the position Pa distance 0.405 m away from the origin (Express your answer in vector form.) NC Submit Answer
A rod of length L lies along the x axis with itsleft end at the origin. It has a nonuniform charge densityλ=αx, whereα is apositive constant.Calculate the electric potential at point B , which lieson the perpendicular bisector of the rod a distance babove the x axis. (Use alphafor α, k_e forke, L, b, and d as necessary.)
1. -12 points SerPSE10 24.1.OP001 My Notes Ask Your Teacher A particle with a charge of q= 15.0yC travels from the origin to the point (x, y) (20.0 cm, 50.0 cm) in the presence of a uniform electric field E220 V/m. Determine the following. (a) the change in the electric potential energy (in J) of the particle-field system (b) the electric potential difference (in V) through which the particle moves Need Help? L Readin
7. + -/1 points SerCP9 27.P.013.soln. My Notes When light of wavelength 254 nm falls on cesium, the required stopping potential is 3.00 V. If light of wavelength 436 nm is used, the stopping potential is 0.900 V. Use this information to plot a graph like that shown in the figure below. (Do this on paper. Your instructor may ask you to turn in your work.) From your graph, determine the cutoff frequency for cesium and its work function. fc...
SerPOP5 10.P.065 .so I n. My Notes Ask Your Teacher 12. -/6 points A long uniform rod of length L and mass M is pivoted about a frictionless, horizontal pin through one end. The rod is nudged from rest in a vertical position as shown in the figure below L Pin (a) At the instant the rod is horizontal, find its angular speed. (Use any variable or symbol stated above along with the following as necessary: g for the acceleration...
13. (-/4 Points] DETAILS SERPSE10 30.A.P.035. MY NOTES ASK YOUR TEACHER PRACTICE ANOTHER A conducting rod of length 1 - 35.0 cm is free to slide on two parallel conducting bars as shown in the figure below. Two resistors R. - 2.000 and R, - 5.000 are corected across the ends of the bars to form a loop. A constant magnetic field 8 - 2.95 T is directed perpendicularly into the page. An external agent pulls the rod to the...
help -/5 points SerCP1016.P.019. My Notes Ask Your A proton is located at the origin, and a second proton is located on the x-axis at, -5.84 m (1 fm (a) Calculate the electric potential energy associated with this configuration 10"" m). (b) An alpha particle (charge - 2e, mass - 6.64 x 10"" kg) is now placed at (x,y) - (2.92, 2.92) fm. Calculate the electric potential energy associated with this configuration (c) Starting with the three particle system, find...
Potential of a Finite RodA finite rod of length L has total charge q, distributed uniformly along its length. The rod lies on the x-axis and is centered at the origin. Thus one endpoint is located at (-L/2,0), and the other is located at (L/2,0). Define the electric potential to be zero at an infinite distance away from the rod. Throughout this problem, you may use the constant k in place of the expression .a) What is VA, the electric potential...