Electricity and Magnetism Fundamentals - MCQs Part IV

Multiple Choice Questions Topic Outline

• MCQs in Atomic Structure
• MCQs in Electric Charge
• MCQs in Ohm's Law, Kirchoff Law, Coulomb's Law, etc
• MCQs in Magnetic Power
• MCQs in Magnetic Field and Magnetic Flux
• MCQs in Magnetic and Electric Quantities / Units
• MCQs in Magnetic/Electromagnet Principles

The Six-Parts Series

Following is the list of multiple choice questions in this brand new series:

Electricity and Magnetism Fundamentals MCQs

PART 1: MCQs from Number 1 – 50                        Answer key: PART I

PART  2: MCQs from Number 51 – 100                   Answer key: PART II

PART 3: MCQs from Number 101 – 150                  Answer key: PART III

PART 4: MCQs from Number 151 – 200                  Answer key: PART IV

PART 5: MCQs from Number 201 – 250                  Answer key: PART V

PART 6: MCQs from Number 251 – 300                  Answer key: PART VI

Start with Part IV of the MCQs Series

151. How is mutual inductance between two coils decreased?

• A. By using a common core
• B. By moving the coils closer
• C. By moving the coils apart
• D. By increasing the number of turns of either coil

152. A magnetic field is

• A. The current flow through space around a permanent magnet
• B. The force set up when current flows through a conductor
• C. The force that drives current through a resistor
• D. The force between the plates of a charged capacitor

153. Ohm’s law can be used only to a _____ circuit or component.

• A. Unilateral
• B. Exponential
• C. Trivalent
• D. Linear

154. When the current flows, the magnetic field conductor is in what direction?

• A. The same as the current direction
• B. Opposite the current direction
• C. Omnidirectional
• D. In the direction determined by the left hand rule

155. The magnetic field around the conductor is determined by the

• A. Size of the conductor
• B. Amount of current
• C. Current divided by the resistance
• D. Resistance divided by the current

156. Back emf refers to the

• A. Current equal to the applied emf
• B. Opposing emf
• C. Current opposing the applied emf
• D. Voltage opposing the applied emf

157. The magnetic flux through a coil changes. This results to the induced emf acting in a direction as to

• A. Oppose the change
• B. Aid the change
• C. Either oppose or aid the change
• D. Neither oppose nor aid the change

158. A magnetic flux of 2.5 x10⁴ Wb through an area of 5 x10⁴ square meters results in

• A. 5 Wb
• B. 0.5 Tesla of flux density
• C. 5x 10^-5 Wb of flux
• D. 5000 Tesla of flux density

159. If a 20 V potential is applied across a relay coil with 50 turns having 1 Ω of resistance, the total magnetomotive producing magnetic flux in the circuit is

• A. 10 Wb
• B. 50 T
• C. 1000 A t/m
• D. 1000 A.t

160. What is the reluctance of a magnetic path having a length of 2 x 10^-3 m and cross- sectional area of 2.5 x 10^-3 m²?

• A. 6366 A.t/Wb
• B. 6000 A.t/Wb
• C. 8x10^-3 A.t/Wb
• D. 0.8 A.t/Wb

161. Calculate the permeability (in T/A. t/m) of a magnetic material that has a relative permeability of 300

• A. 3.78 x 10^-4
• B. 3.78 x 10^-5
• C. 3.78 x 10^-3
• D. 3.78 x 10^-6

162. Calculate the flux density that will be produced by the field intensity of 2000 a. t/m for a permeability of 126 x 10^-6 T/A.t/m

• A. 0.252 G
• B. 0.252 x 10^-2 T
• C. 0.252 T
• D. 0.252 x 10^-2 G

163. How many turns are needed to produce a magnetomotive force of 1000 A.t for a coil with 6 amperes?

• A. 6000 turns
• B. 600 turns
• C. 167 turns
• D. 67 turns

164. A 6- V battery is connected across a solenoid of 100 turns having a resistance of 2 Ω, Calculate the number of ampere turns?

• A. 100
• B. 50
• C. 300
• D. 600

165. What determines the atomic number of an element?

• A. The number of protons
• B. The number of electrons
• C. The number of neutrons
• D. The number of neutrons and protons

166. One of the solid structures in which the position of the atoms or ions are predetermined

• A. Crystalline solid
• B. Amorphous solid
• C. Polycrystalline solid
• D. Poly- amorphous solid

167. Mmf in a magnetic circuit corresponds to _____ in an electric circuit

• A. Emf
• B. Voltage drop
• C. Electric Field Intensity
• D. Potential gradient

168. What solid has no defined crystal structure except perhaps in the arrangement of the nearest neighboring atoms or ions?

• A. Crystalline
• B. Amorphous
• C. Polycrystalline
• D. Poly- amorphous

169. Amorphous solid is also called

• A. Crystalline
• B. Non- crystalline
• C. Polycrystalline
• D. Homogenous

170. A principle that states that only two electrons with different spins are allowed to exist in a given orbit

• A. Bohr’s principle
• B. Pauli exclusion principle
• C. Avogadro’s principle
• D. Coulomb’s principle

171. What bond is formed when one or more electrons in the outermost energy orbit of an atom are transferred to another?

• A. Ionic
• B. Covalent
• C. Metallic
• D. Van der Waals

172. In electro-mechanical conversion devices like generators and motors the reason why a small air gap is left between the rotor and stator is to

• A. permit mechanical clearance
• B. increase flux density in air gap
• C. decrease the reluctance of magnetic path
• D. complete the magnetic path

173. What bond is formed when electrons in the outermost energy orbits of the atoms are shared between two or more electrons?

• A. Ionic
• B. Covalent
• C. Metallic
• D. Van der Waals

174. Why is it that the magnitude of magnetomotive force required for air gap is much greater than that required for iron part of a magnetic circuit?

• A. Because air is a gas
• B. Because air has the highest relative permeability
• C. Because air is a conductor of magnetic flux
• D. Because air has the lowest relative permeability

175. What type of bond is formed when there exists some form of collective interactions between the (negatively charged) electrons and (positively charged) nuclei in a solid?

• A. Ionic
• B. Covalent
• C. Metallic
• D. Van der Waals

176. Permeance of a magnetic circuit is _________ the cross-sectional area of the circuit.

• A. directly proportional to
• B. inversely proportional to
• C. dependent of
• D. independent of

177. Formed when there exist distant electronic interactions between (opposite) charges present in the neighboring atoms or molecules.

• A. Ionic bond
• B. Covalent bond
• C. Metallic bond
• D. Van der Waals bond

178. Defined as the ratio of the volume occupied by the atoms or ions in a unit cell divided by the volume of the unit cell and is used to measure the compactness of a crystal.

• A. Atomic packing factor (APF)
• B. Ionic Packing Ratio (IPR)
• C. Atomic compacting factor (ACF)
• D. Ionic compacting ratio (ICR)

179. A factor used to correct for the electrostatic forces of the more distant ions in an ionic solid.

• A. Avogadro’s number
• B. Planck’s constant
• C. Boltzmann’s constant
• D. Madelung constant

180. The conduction of electricity across the surface of a dielectric is called

• A. creepage
• B. skin effect
• C. surface effect
• D. crosstalk

181. A magnetic circuit carries a flux φ_i in the iron part and a flux φ_g in the air gap. What is the leakage coefficient?

• A. φ_i/ φ_g
• B. φ_{i ×} φ_g
• C. φ_g /φ_i
• D. φ_{i +} φ_g

182. A law stating that the magnetic susceptibilities of most paramagnetic substances are inversely proportional to their absolute temperatures.

• A. Curie’s Law
• B. Child’s Law
• C. CR Law
• D. Curie-Weiss Law

183. The reluctance of the magnetic circuit is ________ relative permeability of the material comprising the circuit.

• A. directly proportional to
• B. inversely proportional to
• C. independent of
• D. dependent of

184. A law relating between the magnetic and electric susceptibilities and the absolute temperatures which is followed b ferromagnets, antiferromagnets, non-polar ferroelectrics, antiferroelectrics and some paramagnets.

• A. Curie’s Law
• B. Child’s Law
• C. CR Law
• D. Curie-Weiss Law

185. Theory of ferromagnetic phenomena which assumes each atom is a permanent magnet which can turn freely about its center under the influence of applied field and other magnets.

• A. Ewing’s theory of ferromagnetism
• B. Oersted’s ferromagnetism theory
• C. Maxwell’s magnetic theory
• D. Ampere’s circuital law

186. The reluctance of a magnetic circuit varies with

• A. length × area
• B. area ÷ length
• C. length ÷ area
• D. length + area

187. A theorem which states that an electric current flowing in a circuit produces a magnetic field at external points equivalent to that due to a magnetic shell whose bounding edge is the conductor and whose strength of the current.

• A. Joule’s law
• B. Faraday’s law
• C. Volta’s theorem
• D. Ampere’s theorem

188. What is the usual value of leakage coefficient for electrical machines?

• A. 0.5 to 1
• B. 1 to 5
• C. 5 to 10
• D. 1.15 to 1.25

189. The science of adapting electronics to aerospace flight.

• A. Avionics
• B. Aerotronics
• C. Aerodynamics
• D. Astrionics

190. The reluctance of a magnetic circuit is not dependent on which of the following?

• A. Number of turns of coil
• B. Magnetomotive force
• C. Flux density in the circuit
• D. Current in the coil

191. Another term for corona discharge.

• A. Lightning
• B. Sparking
• C. Aurora
• D. Corona Effect

192. The B-H curve for ________ is a straight line passing through the origin.

• A. cobalt
• B. air
• C. hardened steel
• D. soft iron

193. The phenomenon that when an electric current passes through an anisotropic crystal, there is an absorption or liberation of heat due to the non-uniformity in current distribution.

• A. Bridgman effect
• B. Corona effect
• C. Dember effect
• D. Destriau effect

194. The B-H curve of ________ is not a straight line.

• A. air
• B. wood
• C. silicon steel
• D. soft iron

195. If a magnetic flux cuts across 200 turns at a rate of 2Wb/s, the induced voltage according to Faraday’s law is about

• A. 400 V
• B. 100 V
• C. 200 V
• D. 600 V

196. What is the SI unit of reluctance?

• A. At
• B. At/m
• C. N/Wb
• D. At/Wb

197. A magnetizing force of 1000 AT/m will produce a flux density of __________ in air.

• A. 1.257 mWb/m²
• B. 0.63 Wb/m²
• C. 1.257 Wb/m²
• D. 0.63 mWb/m²

198. Hysteresis loss can be reduced by one of the following.

• A. Increasing mmf of the circuit
• B. Using material narrow hysteresis loop
• C. Using ferromagnetic core
• D. Laminating the magnetic circuit

199. The core of a transformer heats up when its primary is fed from an ac source because of

• A. permeability
• B. ferromagnetism
• C. reluctance of core
• D. hysteresis loss

200. Which of the following materials has the least hysteresis loop area?

• A. soft iron
• B. silicon steel
• C. hard steel
• D. wrought iron

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