32. The charge within a conductor will be: a. Greater than 1 b. Less than 1 C. Zero d. Infinite 33. The capacitance of a material refers to: a. Ability of the material to store magnetic field. b. Ability of the material to store electromagnetic field. c. Ability of the material to store electric field. d. Potential between two charged plates.
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- Explain the following. A. Magnetic Field Strength B. Boundary Conditionshow does the electrostatic discharge occur in the following situation? explain with suitable mathematical substantiation a. Insulator surface are rubbing together. b.Insulator surface are pulling apart.Which of the following is not true for ferromagnetic materials? Please choose one: a. High?mthey have value. b.Above the Curie temperature, they lose their non-linear properties. C. a fixedµrthey have value. D.The energy loss is proportional to the area of the hysteresis loop.
- 1. “Electrical and magnetic properties of a material have strong relation with each other”, Explain with figure.One of the methods of charging materials wherein the transfer of charges is due to the contact between two materials and depends also on the nature of the materials. Select one: a. charging by conduction b. charging by friction c. charging by induction d. charging by grounding6. You take a copper wire as shown in the figure, where the cross-section area A doubles between parts 1 and 2 of same length, and apply a potential difference across it so that a current flows from part 1 to 2. What happens in part 2 of the wire, as compared to part 1?" r A) The electron current increases B) The electron density increases C) The resistance increases D) The electric field or drift speed decrease E) The electric field and drift speed decrease E
- 4 One of the methods of charging materials wherein the transfer of charges is due to the contact between two materials and depends also on the nature of the materials. Select one: a. charging by friction b. charging by conduction c. charging by induction d. charging by groundinga). Explain the difference between an electrical conductor and an electrical insulator. (b). Give an example material/object of a conductor and an insulator.25 PROBLEMS 12 cm +1.5-mm gap IP1000t Armature (sheet steel) Cast steel A = 2 cm? throughout FIGURE 1.27. The relay shown in Figure 1.27 has a core made of cast steel and an armature of sheet steel. A flux of 0.8 T in the air gap produces a force that pulls in the CO armature. a. Determine the required current to pull in the armature. b. What force is exerted on the armature to overcome the spring tension? c. Assuming in the closed position the air gap is reduced to 0.1 mm, to what value may the current be reduced (dropout current of relay) just to retain closure? Assume that the same force is required in the closed position to overcome the spring force.
- a. The unit of field intensity is B. coulomb/m? newtons/m? A. coulomb C. newtons/coulomb D. b. Coulomb's law for the force between electric charges most closely resembles with A. Gauss theorem C. Law of conservation of energy B. Newton's law of gravitation D. Newton's laws of motion C. A region around a stationary electric charge has B. magnetic field D. neither of the two A. electric field C. both electric and magnetic fieldDiscussions:Voltage Distribution and String Efficiency of a Model Suspension Insulator 1- Comment on the results obtained.2- Give reasons for unequal potential distribution over the string.3- What is the effect of this un equality on the insulators?4- Can value of the string efficiency being equal to 100%. Explain your answer.5- Outline methods used to equalize the potential across the units.6- Why an insulator is represented as a capacitor C? What are the assumptionmodes?QUESTION 7 Match Collumn A and Collumn B? Properties of Metal v Britleness A. the property of a metal which allows little bending or deformation without shattering Conductivity B. the property of metal to resist deformation and stress without breaking the property of a metal which can be hammered, rolled. or pressed into various shape without C. v Hardness cracking, breaking or leaving some other detrimental effect v Strength D. the property of a metal to resist cutting, penetration and abbrasion v Elasticity E. the weight of a unit volume of a material F. the property of a metal to become liquid by the application of heat v Malleability the property of metal which enables a material to return to its original state when the force G. applied is removed v Fusibility v Density H. the property of a metal to conduct electricity or heat Click Save and Submit to save and submit. Click Save All Answers to save all answers. Beno