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LSAT-Section-1-Logical-Reasoning Section One : Logical Reasoning

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Showing 139–141 of 430 questions

Question 139

Exactly seven toy-truck models – F, G, H, J, K, M, and S – are assembled on seven assembly lines, exactly one model to a line. The seven lines are arranged side by side and numbered consecutively F through 7, Assignment of models to lines must meet the following conditions:

F is assembled on a lower-numbered line than J.

M is assembled on the line numbered one lower than the line on which G is assembled.

H is assembled on line 1 or else line 7. S is assembled on line 4.

If G is assembled on the line numbered one less than the line on which F is assembled, then which one of the following must be true?

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  • F is assembled on line 3.

  • G is assembled on line 5.

  • H is assembled on line 1.

  • K is assembled on line 5.

  • M is assembled on line 6
Question 140

Exactly seven toy-truck models – F, G, H, J, K, M, and S – are assembled on seven assembly lines, exactly one model to a line. The seven lines are arranged side by side and numbered consecutively F through 7, Assignment of models to lines must meet the following conditions:

F is assembled on a lower-numbered line than J.

M is assembled on the line numbered one lower than the line on which G is assembled.

H is assembled on line 1 or else line 7. S is assembled on line 4.

If M is assembled on line 1, which one of the following could be true?

Select an option, then click Submit answer.

  • F is assembled on a line numbered one lower than the line on which H is assembled.

  • F is assembled on a line numbered one lower than the line on which K is assembled.

  • G is assembled on a line numbered one lower than the line on which J is assembled.

  • G is assembled on a line numbered one lower than the line on which K is assembled.

  • K is assembled on a line numbered one lower than the line on which G is assembled.
Question 141

More and more computer programs that provide solutions to mathematical problems in engineering are being produced, and it is thus increasingly unnecessary for practicing engineers to have a thorough understanding of fundamental mathematical principles. Consequently, in training engineers who will work in industry, less emphasis should be placed on mathematical principles, so that space in the engineering curriculum will be available for other important subjects.

Which one of the following, if true, most seriously weakens the argument given for the recommendation above?

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  • The effective use of computer programs that provide solutions to mathematical problems in engineering requires an understanding of mathematical principles.

  • Many of the computer programs that provide solutions to mathematical problems in engineering are already in routine use.

  • Development of composites and other such new materials has meant that the curriculum for engineers who will work in industry must allow time for teaching the properties of these materials.

  • Most of the computer programs that provide solutions to mathematical problems in engineering can be run on the types of computers available to most engineering firms.

  • The engineering curriculum already requires that engineering students be familiar with and able to use a variety of computer programs.