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10. Is electric flux significant with regards to any fundamental electric component? If so, name the...
3. (10 pts) Name the law that establishes a relationship between the rotation of the electric field strength and the magnetic flux density. Explain in a sentence the meaning of the negative sign of the term with the magnetic flux density. 4. (10 pts) An electron at rest in vacuum is accelerated by a momentary electric field E 438 mV / m z for 325 us and then enters a magnetic field B 257 uT y Determine the direction of...
3. (10 pts) Name the law that establishes a relationship between the rotation of the electric field strength and the magnetic flux density. Explain in a sentence the meaning of the negative sign of the term with the magnetic flux density. 4. (10 pts) An electron at rest in vacuum is accelerated by a momentary electric field E = 438 mV/m z for 325 us and then enters a magnetic field B = 257 UT y. Determine the direction of...
Physics 222 Name: Task 7: Electric Flux and Gauss's Law Objective: To illustrate the concept of "flux" and to avoid performing the integral in Gauss's Law for Electricity 1. A cylindrical Gaussian surface (length = 0.80 m, diameter = 0.20 m) is drawn in an area of a non-uniform electric field, directed at all points in the ex direction (i.e. horizontal to the right). The field varies with x, but does not vary with respect to y or z. The...
(a) A point charge produces an electric flux of +455 Nm2/C through a Gaussian sphere of radius 14.0 cm centered on the charge. i. Determine the sign and magnitude of the charge enclosed. Positive / Negative ii. ANS: What is the electric flux through a Gaussian sphere with a radius 26.5 cm centered on the same charge? (b) ANS: Two charges l_ = -4.0 uC and Q2 = +4.0 uC are located on the y-axis at Y1 = -5.0 cm...
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C. 7. Which of the following best describes the Junction Rule, one of Kirchoff's Rules? a. Current can only run out of a junction b. Current can only run into a junction Current can't flow through a junction d. The total amount of current flowing into a junction equals the total amount of current running out of a junction 8. A positively charged particle moves in the +...
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PHYS2326-TEST II Name ID 2. The magnetic force on a moving charge q is parallel to both its velocity and its magnetic field. 3. A magnetic field will always exerts a force on any charge (or current) present in the field. 4. Two charges of equal magnitude but opposite signs moving in the same direction in the same field will experience magnetic forces in same directions. 5. RC circuits differ from DC circuits...
#8 Gauss's Law and The Shell Theorem Consider a hollow sphere with charge uni- formly distributed on its surface. Suppose the total charge is Q, where Q may be positive or negative Recall that Gauss's law as we have seen it is: Qenclosed ΣΕ A = EO where A = 47tr2 is the total area of the Gaussian surface Suppose the sphere radius is Ro and r > Ro. In terms of Gauss's Law, the reason why the electric field...
3) (11 points) Consider the vector field Use the Fundamental Theorem of lLine Integrals to find the work done by F along any curve from 41. 1Le) to B(2. el) 4) (10 points) Consider the vector field F(x.y)-(r-yi+r+y)j and the circle C: r y-9. Verify Green's Theorem by calculating the outward flux of F across C (12 points) Find the absolute extreme values of the function .-2-4--3 on the closed triangular region in the xy-plane bounded by the lines x...
Advance Seudy Assignment: Fields & Equipotentials Name QUESTIONS 1. Explain the term electric field. What is its definition? Explain with an example what the Sec size and direction of an electric field at a given point means. 2. What is meant by electric potential? What is an equipotential surface? Explain the relationship between equipotential lines and electric field lines. Why is this so? 3. Explain how you will map the electric field of a dipole in this exercise. 4. Using...
Nitrogen is sometimes diffused into the surface of a steel component in a process called case hardening. Consider a sheet of steel (1.416x10A0) mm thick which has nitrogen atmospheres on both sides at a temperature of 1200°C. The system is permitted to achieve a steady-state diffusion condition. The diffusion coefficient for nitrogen in steel at this temperature is (6.735x10A-11) m2/s. The diffusion flux is found to be (2.52x10A-7) kg/m2-s. It is also known that the concentration of nitrogen at the...