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Question

The passage suggests that which of the following is a prediction concerning meteor streams that can be derived from both the conventional theories mentioned in line 9 and the new computer-derived theory?


A

Dust particles in a meteor stream will usually be distributed evenly throughout any cross section of the stream.

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B

The orbits of most meteor streams should cross the orbit of the Earth at a some point and give rise to a meteor shower.

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C

Over time the distribution of dust in a meteor stream will usually become denser at the outside edges of the stream than at the center.

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D

Meteor showers caused by older meteor streams should be, on average, longer in duration than those caused by very young meteor streams.

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E

The individual dust particles in older meteor streams should be, on average, smaller than those that compose younger meteor streams.

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Solution

The correct option is D

Meteor showers caused by older meteor streams should be, on average, longer in duration than those caused by very young meteor streams.


This question asks you to identify a prediction that can be derived from both the conventional theories about meteor streams and the new computer-derived model.

According to the passage, the conventional theories hypothesized that meteor streams should broaden with time, and the computer simulation confirmed this hypothesis. The passage also suggests that the time it takes for the Earth to cross a meteor stream (and, by implication, the duration of the resulting meteor shower) is directly related to the breadth of the stream. From these pieces of information, which are supported by both the conventional theories and the new computer-derived theory, it can be inferred that on average the meteor showers caused by older (and therefore broader) meteor streams would be longer in duration than those caused by very young (and therefore narrower) meteor streams, as stated in the option - Meteor showers caused by older by older meteor streams should be, on average, longer in duration than those caused by very young meteor streams, the most suitable answer.

Dust particles in a meteor stream will usually be distributed evenly throughout any cross section of the stream is incorrect because it contradicts the predictions of both the conventional theories (that the particles will be most dense at the center of the stream) and the computer model (that the stream will resemble a thick-walled, hollow pipe).

Over time the distribution of dust in a meteor stream will usually become denser at the outsides edges of the stream than at the center is also incorrect because it is inconsistent with the conventional theories that suggested the distribution of dust in a meteor stream is denser at the center.

And the remaining options are incorrect because the theories discussed in the passage do not suggest anything about the likelihood that the Earth's orbit will cross that of any particular meteor stream, nor do they suggest anything about the size of the dust particles that compose meteor streams.


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