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Structure of Atom MCQs with Answers – Part 3 (Class 11 Chemistry)

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201. Rutherford's nuclear model describes an atom as having
ⓐ. a uniformly positive sphere with electrons embedded in it
ⓑ. only neutrons spread throughout the atom
ⓒ. electrons fixed inside the nucleus with no empty space
ⓓ. small positive nucleus with revolving electrons
202. In Rutherford's model, electrons do not simply fly away from the nucleus because the model assumes an attractive force between
ⓐ. electrons and the positive nucleus
ⓑ. neutral neutrons and photons
ⓒ. two negatively charged electrons only
ⓓ. alpha particles and the fluorescent screen
203. The part of Rutherford's model that most directly explains the passage of most alpha particles through gold foil is that
ⓐ. atoms are mostly empty space
ⓑ. electrons have no charge
ⓒ. the nucleus occupies nearly the whole atom
ⓓ. positive charge is spread uniformly throughout the atom
204. Two statements about Rutherford's nuclear model are given. Statement I: It explains the presence of a small, dense, positively charged nucleus. Statement II: It fully explains why revolving electrons do not lose energy.
ⓐ. Both Statement I and Statement II are true
ⓑ. Statement I is true, but Statement II is false
ⓒ. Statement I is false, but Statement II is true
ⓓ. Both Statement I and Statement II are false
205. The classical stability problem in Rutherford's model arises because a revolving electron is a charged particle that should
ⓐ. become a neutron immediately in the foil experiment
ⓑ. increase its mass number continuously
ⓒ. stop interacting with the nucleus in the foil experiment
ⓓ. radiate energy and spiral into the nucleus
206. Assertion: Rutherford's model could not explain the stability of atoms. Reason: A revolving electron should continuously lose energy according to classical theory.
ⓐ. Both Assertion and Reason are true, but Reason does not explain Assertion
ⓑ. Assertion is true, but Reason is false
ⓒ. Both Assertion and Reason are true, and Reason explains Assertion
ⓓ. Assertion is false, but Reason is true
207. A model predicts that an electron moving around the nucleus should emit energy continuously. If this were true, the atom would be expected to show
ⓐ. perfect stability with no change in electron motion
ⓑ. no interaction between nucleus and electron
ⓒ. collapse of the electron into the nucleus
ⓓ. a nucleus with negative charge
208. Rutherford's model also failed to explain the line spectrum of hydrogen because it did not include
ⓐ. protons in the nucleus in the foil experiment
ⓑ. quantized electron energy levels
ⓒ. empty space inside the atom in the foil experiment
ⓓ. positive charge in the nucleus
209. A comparison of model features is shown below.
RowFeatureBest linked model
PPositive charge spread throughout atomThomson model
QTiny dense positive nucleusRutherford model
RClassical stability of revolving electrons fully explainedRutherford model
SAtom mostly empty spaceRutherford model
The mismatched row is
ⓐ. R
ⓑ. P
ⓒ. Q
ⓓ. S
210. Use the arrangement described below. An electron is pictured as moving in a circular path around a positive nucleus, just as Rutherford's model imagined. Classical electromagnetic theory is then applied to the moving electron. The expected difficulty is that the electron should
ⓐ. keep exactly the same energy forever
ⓑ. become positively charged at once in the foil experiment
ⓒ. remove all protons from the nucleus in the foil experiment
ⓓ. radiate energy as an accelerating charged particle
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