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Re: According to most scientists, the universe began approximat [#permalink]
Could someone please provide an explanation for the third question?

It can be inferred from the passage that a standard candle may not provide an accurate measure of distance if

A) the galaxy being measured is moving too quickly
B) interstellar dust makes the object measured appear dimmer than it really is
C) if the galaxy being measured has a local component of measurement
D) the particles being measured do not completely accord with a linear motion
E) the galaxies being measured move at different speeds
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Re: According to most scientists, the universe began approximat [#permalink]
3
Explanation For Question 3)

It can be inferred from the passage that a standard candle may not provide an accurate measure of distance if

A) the galaxy being measured is moving too quickly
B) interstellar dust makes the object measured appear dimmer than it really is
C) if the galaxy being measured has a local component of measurement
D) the particles being measured do not completely accord with a linear motion
E) the galaxies being measured move at different speeds

Last line says "...assuming, of course, that distance is the only factor affecting brightness."
In other words, if ANYTHING other than distance is affecting the brightness then you wouldn't get an accurate measurement.
The only answer choice which suggests brightness is the second one.
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Re: According to most scientists, the universe began approximat [#permalink]
shuklamitanshu wrote:
Explanation For Question 3)

It can be inferred from the passage that a standard candle may not provide an accurate measure of distance if

A) the galaxy being measured is moving too quickly
B) interstellar dust makes the object measured appear dimmer than it really is
C) if the galaxy being measured has a local component of measurement
D) the particles being measured do not completely accord with a linear motion
E) the galaxies being measured move at different speeds

Last line says "...assuming, of course, that distance is the only factor affecting brightness."
In other words, if ANYTHING other than distance is affecting the brightness then you wouldn't get an accurate measurement.
The only answer choice which suggests brightness is the second one.








It is Clearly mentioned that
" if the galaxies are moving at incredible speeds, is difficult to observe." so it should be option A no right? please explain
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According to most scientists, the universe began approximat [#permalink]
1
Hi,

It can be inferred from the passage that a standard candle may not provide an accurate measure of distance if ...

Consider this from the passage : Scientists must, therefore, rely on a “standard candle,” an object of known brightness within the galaxy they wish to observe. Using the inverse square law, scientists can then measure how far that galaxy is away from our own. For instance, suppose a supernova in galaxy A appears one hundred times as bright as one in galaxy B. By the inverse square law, galaxy B is ten times farther away than galaxy A, assuming, of course, that distance is the only factor affecting brightness.

We need to find answer relative to measuring the distance. So if light is coming without any blockage, distance from earth can be measured.


wewake06298 wrote:
shuklamitanshu wrote:
Explanation For Question 3)

It can be inferred from the passage that a standard candle may not provide an accurate measure of distance if

A) the galaxy being measured is moving too quickly
B) interstellar dust makes the object measured appear dimmer than it really is
C) if the galaxy being measured has a local component of measurement
D) the particles being measured do not completely accord with a linear motion
E) the galaxies being measured move at different speeds

Last line says "...assuming, of course, that distance is the only factor affecting brightness."
In other words, if ANYTHING other than distance is affecting the brightness then you wouldn't get an accurate measurement.
The only answer choice which suggests brightness is the second one.








It is Clearly mentioned that
" if the galaxies are moving at incredible speeds, is difficult to observe." so it should be option A no right? please explain
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Re: According to most scientists, the universe began approximat [#permalink]
que 2 why option a is wrong
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Re: According to most scientists, the universe began approximat [#permalink]
1
Hey,

Choice A is exactly the opposite of inverse square law discussed in the last para. Nearer one should be more brighter.

void wrote:
que 2 why option a is wrong
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Re: According to most scientists, the universe began approximat [#permalink]
shravyashetty wrote:
Could someone please provide an explanation for the third question?

It can be inferred from the passage that a standard candle may not provide an accurate measure of distance if

A) the galaxy being measured is moving too quickly
B) interstellar dust makes the object measured appear dimmer than it really is
C) if the galaxy being measured has a local component of measurement
D) the particles being measured do not completely accord with a linear motion
E) the galaxies being measured move at different speeds


By the inverse square law in the last paragraph, we know that the distance is the ONLY factor that affects brightness, with which we can directly calculate the distance. But intervened by stardust, the relation is uncertain because we don't know how to fix this.
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According to most scientists, the universe began approximat [#permalink]
Does option E in question 4 mean that supernova brightness is inversely proportional to distance? Carcass
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Re: According to most scientists, the universe began approximat [#permalink]
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Question #1


E

In the last paragraph, the author discusses the difficulties inherent in measuring intergalactic distances. He notes that scientists use a standard candle in combination with the inverse square law to measure those distances.
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Re: According to most scientists, the universe began approximat [#permalink]
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Question #2


C

The passage states in the third paragraph that brighter objects are closer than dim objects, so eliminate (A). The passage never specifies what scientists know about the age of astronomical objects, so eliminate (B). The first paragraph says that, according to Hubble’s law, “objects farther away from Earth are receding faster than those closer.” This means that the farther object will travel faster, so (C) is correct.
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Re: According to most scientists, the universe began approximat [#permalink]
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Question #3


B

According to the last line in the paragraph, “By the inverse square law, galaxy B is ten times farther away than galaxy A, assuming, of course, that distance is the only factor affecting brightness.” Therefore, if interstellar dust affects the brightness of an object, the brightness of the object is affected, and the distance scientists measure may be inaccurate.
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Re: According to most scientists, the universe began approximat [#permalink]
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Question #4


C

According to the passage, “By the inverse square law, galaxy B is ten times farther away than galaxy A, assuming, of course, that distance is the only factor affecting brightness.” Therefore, assuming that all other factors affecting brightness can be known, we can conclude that the brighter of the supernovas will be closer to Earth.
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Re: According to most scientists, the universe began approximat [#permalink]
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gahob wrote:
Does option E in question 4 mean that supernova brightness is inversely proportional to distance? Carcass



let me know if you need further assistance
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Re: According to most scientists, the universe began approximat [#permalink]
Actually i did't get the meaning of Option E in Q4
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According to most scientists, the universe began approximat [#permalink]
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The passage says

For instance, suppose a supernova in galaxy A appears one hundred times as bright as one in galaxy B. By the inverse square law, galaxy B is ten times farther away than galaxy A, assuming, of course, that distance is the only factor affecting brightness.

So we have galaxy A and galaxy B, In galaxy A we have a supernova and in galaxy B as well

By the inverse square law and the distance is the only variable that comes into play, the supernova in galaxy A appears to us brighter than the supernova in galaxy B because supernavoa in galaxy A is closer to us because galaxy A as a whole is close to our own galaxy

However, choice E tells us

E) the distance between the supernovas and our own galaxy is inversely proportional

This is false. Even though the law is about the inverse square we do know that the brightness is direct proportional because the supernova is A is closer to us. B is far away. Even though, as I said, could be even possible that the two supernovas have the same brightness

I hope now is more clear

PS:; I believe that question 4 is NOT properly written

Something for me is missing
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