Last visit was: 15 Nov 2024, 17:49 It is currently 15 Nov 2024, 17:49

Close

GRE Prep Club Daily Prep

Thank you for using the timer - this advanced tool can estimate your performance and suggest more practice questions. We have subscribed you to Daily Prep Questions via email.

Customized
for You

we will pick new questions that match your level based on your Timer History

Track
Your Progress

every week, we’ll send you an estimated GRE score based on your performance

Practice
Pays

we will pick new questions that match your level based on your Timer History

Not interested in getting valuable practice questions and articles delivered to your email? No problem, unsubscribe here.

Close

Request Expert Reply

Confirm Cancel
SORT BY:
Date
GRE Prep Club Team Member
Joined: 20 Feb 2017
Posts: 2508
Own Kudos [?]: 3610 [3]
Given Kudos: 1053
GPA: 3.39
Send PM
GRE Prep Club Team Member
Joined: 20 Feb 2017
Posts: 2508
Own Kudos [?]: 3610 [1]
Given Kudos: 1053
GPA: 3.39
Send PM
GRE Prep Club Team Member
Joined: 20 Feb 2017
Posts: 2508
Own Kudos [?]: 3610 [1]
Given Kudos: 1053
GPA: 3.39
Send PM
GRE Prep Club Team Member
Joined: 20 Feb 2017
Posts: 2508
Own Kudos [?]: 3610 [1]
Given Kudos: 1053
GPA: 3.39
Send PM
Re: Australian researchers have discovered electroreceptors (sensory organ [#permalink]
1
Expert Reply
Explanation


3. The author of the passage most probably discusses the function of tactile receptors (lines 7-11) [While it is true that tactile receptors, another kind of sensory organ on the anteater’s snout, can also respond to electrical stimuli, such receptors do so only in response to electrical field strengths about 1,000 times greater than those known to excite electroreceptors.] in order to

Difficulty Level: Hard

Explanation

(A) eliminate an alternative explanation of anteaters’ response to electrical stimuli.
This is our answer. See if he had merely known that anteater has two kinds of sensory organs and both respond to the electrical fields then it could have been possible that when researchers were applying electrical fields to stimulate electroreceptors may be tactile receptors were responding. In that case, the research would be rendered useless. By mentioning the fact that these tactile receptors need a 1000 times greater electrical field than what electroreceptors need to respond the author has eliminated the possibility we mentioned above. This information about tactile receptors ensures us that it is indeed the electroreceptors that are responding and not the tactile ones.

(B) highlight a type of sensory organ that has a function identical to that of electroreceptors
The passage does not mention any of the functions of tactile receptors. So this is irrelevant.

(C) point out a serious complication in the research on electroreceptors in anteaters.
What sort of complication?? the passage doesn't mention any and if we are talking about the response to electrical fields then that just cannot be a complication because electroreceptors respond to very weak electrical fields and tactile ones to very strong electrical fields and in order to identify electroreceptors the researchers exposed small areas of the snout to extremely weak electrical fields.

(D) suggest that tactile receptors assist electroreceptors in the detection of electrical signals.
tactile receptors respond to electrical stimuli that is 1000 times greater than those known to excite electroreceptors. Can't see how tactile receptors can help electroreceptors.

(E) introduces a factor that was not addressed in the research on electroreceptors in anteaters.
Can't see how this can be the answer. If the author is introducing any information it has a purpose.

Answer: A
GRE Prep Club Team Member
Joined: 20 Feb 2017
Posts: 2508
Own Kudos [?]: 3610 [0]
Given Kudos: 1053
GPA: 3.39
Send PM
Australian researchers have discovered electroreceptors (sensory organ [#permalink]
Expert Reply
Explanation


4. Which of the following can be inferred about anteaters from the behavioral experiment mentioned in the second paragraph?

Difficulty Level: Medium

Explanation

The experiment in question is a behavioural experiment in which researchers trained the ant-eater to differentiate between two troughs of water based on electric signals.

(A) They are unable to distinguish between stimuli detected by their electroreceptors and stimuli detected by their tactile receptors.
This is incorrect because the experiment only involved a ‘weak electric field’, and we know that tactile is triggered by 1000x greater fields

(B) They are unable to distinguish between the electrical signals emanating from termite mounds and those emanating from ant nests.
This is incorrect – we don’t know this. In fact later on we are told that electric signals aren’t given off.

(C) They can be trained to recognize consistently the presence of a particular stimulus.
C is correct – it can be 100% supported since the researchers trained the anteaters to detect a stimulus.

(D) They react more readily to strong than too weak stimuli.
D is incorrect since we have no information on the ‘readiness’ by which the anteaters respond to stimuli

(E) They are more efficient at detecting stimuli in a controlled environment than in a natural environment.
E is incorrect since we can’t support how anteaters interact between environments

Answer: C
GRE Prep Club Team Member
Joined: 20 Feb 2017
Posts: 2508
Own Kudos [?]: 3610 [0]
Given Kudos: 1053
GPA: 3.39
Send PM
Australian researchers have discovered electroreceptors (sensory organ [#permalink]
Expert Reply
Explanation


5. The passage suggests that the researchers mentioned in the second paragraph who observed anteaters break into a nest of ants would most likely agree with which of the following statements?

Difficulty Level: Hard

Explanation

(A) The event they observed provides conclusive evidence that anteaters use their electroreceptors to locate unseen prey.
A is incorrect – the finding is generally weak. We are told that the researchers “as yet have been unable to detect” signals, so the observation isn’t exactly conclusive.

(B) The event they observed was atypical and may not reflect the usual hunting practices of anteaters.
Knowing what “atypical” means can help – it means “not representative”- if all this time we are told of evidence relating to one ant-eater then how can another observation relating to one ant-eater be non-representative?

(C) It is likely that the anteaters located the ants’ nesting chambers without the assistance of electroreceptors.
But I see that it's incorrect as the observation was in fact used as evidence to support the claim the anteater uses their electroreceptors for this hunting.

(D) Anteaters possess a very simple sensory system for use in locating prey.
D is incorrect – probably the easiest to eliminate. We know the system isn’t exactly simple. If it were then the scientists would produce conclusive and strong conclusions.

(E) The speed with which the anteaters located their prey is greater than what might be expected on the basis of chance alone.
The researchers in question observed anteaters break into nests that weren’t emitting signals, and eat their prey at oblique angles, quickly.
E is correct because we are told that “researchers observed anteaters breaking into a nest….at an oblique angle and quickly locating nesting chambers”


This is analogous to someone walking into their bedroom at nighttime with the lights turned off and getting into bed. This person would rely on other sensors to navigate his way as well as his familiarity. What’s insinuated by E is that the fact the anteaters got into the nests awkwardly, but so quickly, makes it hard to believe that the anteater got lucky in identifying the ants.

Answer: E
GRE Prep Club Team Member
Joined: 20 Feb 2017
Posts: 2508
Own Kudos [?]: 3610 [0]
Given Kudos: 1053
GPA: 3.39
Send PM
Re: Australian researchers have discovered electroreceptors (sensory organ [#permalink]
Expert Reply
Explanation


6. Which of the following, if true, would most strengthen the hypothesis mentioned in lines 17-19 [Such evidence is consistent with researchers’ hypothesis that anteaters use electroreceptors to detect electrical signals given off by prey?

Difficulty Level: Hard

Explanation

Here the passage is asking us to strengthen the hypothesis that anteaters actually use electroreceptors to detect electrical signals(weak signals) given off by their prey. So let's look for options that actually strengthen this fact.

(A) Researchers are able to train anteaters to break into an underground chamber that is emitting a strong electrical signal.
Yes, researchers can train the anteaters but here we need something to strengthen the fact that anteaters use electrical signals to detect their prey. This option doesn't give us that

(B) Researchers are able to detect a weak electrical signal emanating from the nesting chamber of an ant colony.
Here the researchers detect that there are weak electrical signals coming out from the ant colony and as a result, the anteaters can detect these signals and reach the prey. This is providing evidence to the fact that anteaters use electric signals to detect their prey and we can conclude this because now we know that these ants give out signals

(C) Anteaters are observed taking increasingly longer amounts of time to locate the nesting chambers of ants.
The information about the time taken by the anteaters to locate the nesting chambers of ants is not relevant or useful in showing that these anteaters use electrical signals to locate their prey.

(D) Anteaters are observed using various angles to break into nests of ants.
Yet again the information about the angles anteaters use to break into nests of ants. gives no evidence or clue to conclude that they use electric signals to detect their prey.

(E) Anteaters are observed using the same angle used with nests of ants to break into the nests of other types of prey.
Same as option D

Answer: B
Prep Club for GRE Bot
Re: Australian researchers have discovered electroreceptors (sensory organ [#permalink]
Moderators:
GRE Forum Moderator
37 posts
GRE Instructor
234 posts
GRE Instructor
1065 posts

Powered by phpBB © phpBB Group | Emoji artwork provided by EmojiOne