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Re: At the atomic scale, all matter exhibits properties commonly associate [#permalink]
Is the answer for #1 A because it states “findings” of the experiment in the question itself? Otherwise, I feel like you could make an argument for answer C, but understand that answer A is more objective in that sense
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Re: At the atomic scale, all matter exhibits properties commonly associate [#permalink]
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If a beam of light passes through two narrow slits and is projected onto a screen behind the slits, a pattern of light and dark fringes can be observed.

C cannot be inferred.

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Re: At the atomic scale, all matter exhibits properties commonly associate [#permalink]
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summary:

matter behave as wave and particle, 2 experiments were shown, which denotes that matter as as a wave then Einstein gave some credence to newton's hypothesis. In between Young compared his experiment with that of water ripple phenomenon.

A1: (A)
E and D were not mentioned on the para
C was given by Einstein, young was showing the wavelike properties of matter
B - Waves might cancel or amplify, depending upon the scenario

A2: (B) - Young compared his experiment with that of water ripple effect and said the waves might add or amplify
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Re: At the atomic scale, all matter exhibits properties commonly associate [#permalink]
B shows possibility and not certainty, so can be answer. While A incorporates predict ability which us not supported in the passage

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At the atomic scale, all matter exhibits properties commonly associate [#permalink]
If someone doesn't know the meaning of slits, crests or troughs it is IMPOSSIBLE to even attempt to understand, it's a dastardly paragraph, should be included in hardest of questions.
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Re: At the atomic scale, all matter exhibits properties commonly associate [#permalink]
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I disagree.

The GRE is just this
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Re: At the atomic scale, all matter exhibits properties commonly associate [#permalink]
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Below was my approach for Q.1

Which of the following best summarizes the findings of Young’s experiment, as described in the passage? ​

A​ The waves from independent light sources interact with one another in predictable patterns. ​- Yes. Best option among the rest. Although, I feel an apt summary of the finding would be that light sources have properties of wave.
B​ Two light sources can cancel each other out, creating the observed dark fringes. ​ - Eliminated this option because the passage states that the waves of the light sources can cancel each other out, and not the light sources themselves. Moreover, I felt the option doesn't represent the summary of Young's experiment. The summary of Young's experiment was that light sources have wave like properties.
C​ Light exhibits properties of both particles and waves. ​- Eliminated this as Young's experiement demosntrated only wave like properties of light, not particle like properties; that comes later in the passage
D​ Newton’s theory was permanently debunked. ​- Not correct becaue Newton's theory was not permanently discredited.
E​ Newton’s theory was correct all along. - Not what Young's experiment deals with.
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Re: At the atomic scale, all matter exhibits properties commonly associate [#permalink]
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For Q.2. I felt only options B and D came close. I eliminated option D because as per the passage the brightness would be caused by combination of waves of light. Young's experiement doesn't say anything about particles.
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Re: At the atomic scale, all matter exhibits properties commonly associate [#permalink]
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