GMAT Question of the Day: Daily via email | Daily via Instagram New to GMAT Club? Watch this Video

It is currently 07 Apr 2020, 14:30

Close

GMAT 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 GMAT 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

Before 1965 many scientists pictured the circulation of the ocean’s wa

  new topic post reply Question banks Downloads My Bookmarks Reviews Important topics  
Author Message
TAGS:

Hide Tags

Find Similar Topics 
Manager
Manager
avatar
S
Joined: 16 Oct 2011
Posts: 66
Location: United States
Schools: Haas EWMBA '23
Before 1965 many scientists pictured the circulation of the ocean’s wa  [#permalink]

Show Tags

New post Updated on: 21 Jan 2020, 05:29
Question 1
00:00
A
B
C
D
E

based on 31 sessions

65% (02:53) correct 35% (03:45) wrong

HideShow timer Statistics

Question 2
00:00
A
B
C
D
E

based on 46 sessions

67% (01:10) correct 33% (01:08) wrong

HideShow timer Statistics

Question 3
00:00
A
B
C
D
E

based on 42 sessions

81% (00:52) correct 19% (01:10) wrong

HideShow timer Statistics

Question 4
00:00
A
B
C
D
E

based on 40 sessions

75% (00:59) correct 25% (00:49) wrong

HideShow timer Statistics

Question 5
00:00
A
B
C
D
E

based on 42 sessions

90% (00:43) correct 10% (00:29) wrong

HideShow timer Statistics

Question 6
00:00
A
B
C
D
E

based on 43 sessions

70% (01:23) correct 30% (01:52) wrong

HideShow timer Statistics

Question 7
00:00
A
B
C
D
E

based on 37 sessions

59% (01:02) correct 41% (01:03) wrong

HideShow timer Statistics

1994 04 SECTION B 21-27

Before 1965 many scientists pictured the circulation of the ocean’s water mass as consisting of large, slow-moving currents, such as the Gulf Stream. That view, based on 100 years of observations made around the globe, produced only a rough approximation of the true circulation. But in the 1950’s and the 1960’s, researchers began to employ newly developed techniques and equipment, including subsurface floats that move with ocean currents and emit identification signals, and ocean-current meters that record data for months at fixed locations in the ocean. These instruments disclosed an unexpected level of variability in the deep ocean. Rather than being characterized by smooth, large-scale currents that change seasonally (if at all), the seas are dominated by what oceanographers call mesoscale fields: fluctuating, energetic flows whose velocity can reach ten times the mean velocity of the major currents.

Mesoscale phenomena—the oceanic analogue of weather systems—often extend to distances of 100 kilometers and persist for 100 days (weather systems generally extend about 1,000 kilometers and last 3 to 5 days in any given area). More than 90 percent of the kinetic energy of the entire ocean may be accounted for by mesoscale variability rather than by large-scale currents. Mesoscale phenomena may, in fact, play a significant role in oceanic mixing, air-sea interactions, and occasional—but far-reaching—climatic events such as El Nino, the atmospheric-oceanic disturbance in the equatorial Pacific that affects global weather patterns.

Unfortunately, it is not feasible to use conventional techniques to measure mesoscale fields. To measure them properly, monitoring equipment would have to be laid out on a grid at intervals of at most 50 kilometers, with sensors at each grid point lowered deep in the ocean and kept there for many months. Because using these techniques would be prohibitively expensive and time-consuming, it was proposed in 1979 that tomography be adapted to measuring the physical properties of the ocean. In medical tomography x-rays map the human body’s density variations (and hence internal organs); the information from the x-rays, transmitted through the body along many different paths, is recombined to form three-dimensional images of the body’s interior. It is primarily this multiplicative increase in data obtained from the multipath transmission of signals that accounts for oceanographers’ attraction to tomography: it allows the measurement of vast areas with relatively few instruments. Researchers reasoned that low-frequency sound waves, because they are so well described mathematically and because even small perturbations in emitted sound waves can be detected, could be transmitted through the ocean over many different paths and that the properties of the ocean’s interior—its temperature, salinity, density, and speed of currents—could be deduced on the basis of how the ocean altered the signals. Their initial trials were highly successful, and ocean acoustic tomography was born.


1. ​According to the passage, scientists are able to use ocean acoustic tomography to deduce the properties of the ocean’s interior in part because

(A) low-frequency sound waves are well described mathematically
(B) mesoscale phenomena are so large as to be easily detectable
(C) information from sound waves can be recombined more easily than information from x-rays
(D) tomography is better suited to measuring mesoscale phenomena than to measuring small-scale systems
(E) density variations in the ocean are mathematically predictable


2. The passage suggests that medical tomography operates on the principle that

(A) x-rays are superior to sound waves for producing three-dimensional images
(B) sound waves are altered as they pass through regions of varying density
(C) images of the body’s interior can be produced by analyzing a single x-ray transmission through the body
(D) the varying densities within the human body allow x-rays to map the internal organs
(E) information from x-rays and sound waves can be combined to produce a highly detailed image of the body’s interior


3. Which of the following is most similar to medical tomography as it is described in the passage?

(A) The use of ocean-current meters to determine the direction and velocity of the ocean’s mesoscale fields
(B) The use of earthquake shockwave data collected at several different locations and combined to create a three-dimensional image of the Earth’s interior
(C) The use of a grid-point sensory system to map global weather patterns
(D) The use of subsurface floats to map large-scale circulation in the ocean
(E) The use of computer technology to halt the progress of a particular disease within the human body’s internal organs


4. ​The author mentions El Nino (Highlighted) primarily in order to emphasize which of the following points?

(A) The brief duration of weather patterns
(B) The variability of mesoscale phenomena
(C) The difficulty of measuring the ocean’s large-scale currents
(D) The effectiveness of low-frequency sound waves in mapping the ocean
(E) The possible impact of mesoscale fields on weather conditions


5. ​​Which of the following best describes the organization of the third paragraph of the passage?

(A) A theory is proposed, considered, and then attended.
(B) Opposing views are presented, elaborated, and then reconciled.
(C) A problem is described, then a solution is discussed and its effectiveness is affirmed.
(D) An argument is advanced, then refuted, and an alternative is suggested.
(E) A hypothesis is presented, qualified, and then reaffirmed.


6. ​​The passage suggests that which of the following would be true if the ocean’s circulation consisted primarily of large, slow-moving currents?

(A) The influence of mesoscale fields on global weather patterns would remain the same.
(B) Large-scale currents would exhibit more variability than is actually observed.
(C) The majority of the ocean’s kinetic energy would be derived from mesoscale fields.
(D) Atmospheric-oceanic disturbances such as El Nino would occur more often.
(E) Conventional measuring techniques would be a feasible method of studying the physical properties of the ocean.


7. ​​Which of the following, if presented as the first sentence of a succeeding paragraph, would most logically continue the discussion presented in the passage?

(A) Timekeeping in medical tomography must be precise because the changes in travel time caused by density fluctuations are slight.
(B) To understand how ocean acoustic tomography works, it is necessary to know how sound travels in the ocean.
(C) Ships are another possibility, but they would need to stop every 50 kilometers to lower measuring instruments.
(D) These variations amount to only about 2 to 3 percent of the average speed of sound in water, which is about 1, 500 meters per second.
(E) The device used in medical tomography emits a specially coded signal, easily distinguishable from background noise.


Originally posted by pathy on 17 Jan 2020, 19:35.
Last edited by pathy on 21 Jan 2020, 05:29, edited 2 times in total.
GMAT Club team member
User avatar
V
Status: GMAT Club Team Member
Affiliations: GMAT Club
Joined: 02 Nov 2016
Posts: 5397
GPA: 3.62
Before 1965 many scientists pictured the circulation of the ocean’s wa  [#permalink]

Show Tags

New post 07 Mar 2020, 06:55
+1 Kudos to posts containing answer explanation of all questions
_________________
Senior Manager
Senior Manager
User avatar
P
Joined: 31 Jan 2019
Posts: 362
Location: Switzerland
Concentration: General Management
GPA: 3.9
Re: Before 1965 many scientists pictured the circulation of the ocean’s wa  [#permalink]

Show Tags

New post 10 Mar 2020, 00:21
2
Hi everyone,
Got all correct in 13:40 minutes, including 6 minutes to read.

----------------------------------------------------------------------------------------



P1

The author starts with presenting a view that was held until 1965 about oceans: large, smooth currents. She explains that the way information was collected about oceans was approximative and that, with the introduction of more advanced tools, scientists discovered variability and the mesoscale fields.

Purpose: To present the view hold before 1965 about oceans and how such view changed thanks to the use of new equipment.


P2

Here the author explains what mesoscale phenomena are and how they can impact other climatic events. Plus we know that they represent most of the kinetic energy of all the oceans.

Purpose: To describe mesoscale phenomena and their impact on climatic events.




P3

In the last paragraph the author starts with presenting reasons for not using conventional techniques to measure mesoscale phenomena: expensive and time consuming. Then she explains how a cheer alternative was found: Tomography. The author then proceeds to describe how tomography works and in the end claims that acoustic tomography was successful in the first trials.

Purpose: To discards conventional ways to measure mesoscale phenomena and to explain how tomography is more cost efficient



Main point

The purpose of this paragraph is to connect ocean's variability with mesoscale phenomena, describe such phenomena and explain a method (tomography) to measure them.


----------------------------------------------------------------------------------------


1. ​According to the passage, scientists are able to use ocean acoustic tomography to deduce the properties of the ocean’s interior in part because

Pre-thinking

Detail question

From last paragraph: Researchers reasoned that low-frequency sound waves, because they are so well described mathematically and because even small perturbations in emitted sound waves can be detected, could be transmitted through the ocean over many different paths and that the properties of the ocean’s interior—its temperature, salinity, density, and speed of currents—could be deduced on the basis of how the ocean altered the signals.


(A) low-frequency sound waves are well described mathematically
In line with pre-thinking

(B) mesoscale phenomena are so large as to be easily detectable
not mentioned

(C) information from sound waves can be recombined more easily than information from x-rays
not mentioned

(D) tomography is better suited to measuring mesoscale phenomena than to measuring small-scale systems
not mentioned

(E) density variations in the ocean are mathematically predictable
not mentioned


----------------------------------------------------------------------------------------



2. The passage suggests that medical tomography operates on the principle that

Pre-thinking

Inference question

From last paragraph: In medical tomography x-rays map the human body’s density variations (and hence internal organs); the information from the x-rays, transmitted through the body along many different paths, is recombined to form three-dimensional images of the body’s interior.

Let's evaluate the options


(A) x-rays are superior to sound waves for producing three-dimensional images
the focus here is on medical tomography

(B) sound waves are altered as they pass through regions of varying density
Sound waves are out of some here

(C) images of the body’s interior can be produced by analyzing a single x-ray transmission through the body
incorrect

(D) the varying densities within the human body allow x-rays to map the internal organs
Can be inferred

(E) information from x-rays and sound waves can be combined to produce a highly detailed image of the body’s interior
Sound waves are out of scope here


----------------------------------------------------------------------------------------



3. Which of the following is most similar to medical tomography as it is described in the passage?

Pre-thinking

Analogous statement question

Medical tomography uses x rays to create a map of the body's interior. Let's look for a similar statement.


(A) The use of ocean-current meters to determine the direction and velocity of the ocean’s mesoscale fields
Out of context

(B) The use of earthquake shockwave data collected at several different locations and combined to create a three-dimensional image of the Earth’s interior
Yes, the point is to use data to create a map of the interior of something.

(C) The use of a grid-point sensory system to map global weather patterns
This methodology belongs to the unfeasible plan mentioned earlier in the lat paragraph

(D) The use of subsurface floats to map large-scale circulation in the ocean
out of context

(E) The use of computer technology to halt the progress of a particular disease within the human body’s internal organs
out of scope.


----------------------------------------------------------------------------------------


4. ​The author mentions El Nino (Highlighted) primarily in order to emphasize which of the following points?

Pre-thinking

Detail question

From P2: Mesoscale phenomena may, in fact, play a significant role in oceanic mixing, air-sea interactions, and occasional—but far-reaching—climatic events

The purpose is to give an example of how mesoscale phenomena affect other climatic events


(A) The brief duration of weather patterns
Not in line with pre-thinking

(B) The variability of mesoscale phenomena
Not in line with pre-thinking

(C) The difficulty of measuring the ocean’s large-scale currents
Not in line with pre-thinking

(D) The effectiveness of low-frequency sound waves in mapping the ocean
Not in line with pre-thinking

(E) The possible impact of mesoscale fields on weather conditions
in line with pre-thinking


----------------------------------------------------------------------------------------



5. ​​Which of the following best describes the organization of the third paragraph of the passage?

Pre-thinking

Structure question

So
First, we are given an unfeasible way of measuring mesoscale phenomena.
Second, we are given that tomography was the cheaper and most efficient alternative.
Last, we are given that tomography was successful in its first trials.


(A) A theory is proposed, considered, and then attended.
no theory

(B) Opposing views are presented, elaborated, and then reconciled.
no opposing views

(C) A problem is described, then a solution is discussed and its effectiveness is affirmed.
Problem= unfeasible way of measuring mesoscale phenomena, solution= tomography

(D) An argument is advanced, then refuted, and an alternative is suggested.
incorrect

(E) A hypothesis is presented, qualified, and then reaffirmed.
no hyphothesis


----------------------------------------------------------------------------------------


6. ​​The passage suggests that which of the following would be true if the ocean’s circulation consisted primarily of large, slow-moving currents?

Pre-thinking

Inference question

One inference would be that the oceans would be characterized by significantly less kinetic energy than they are now.


(A) The influence of mesoscale fields on global weather patterns would remain the same.
Probably not

(B) Large-scale currents would exhibit more variability than is actually observed.
cannot be inferred

(C) The majority of the ocean’s kinetic energy would be derived from mesoscale fields.
probably not

(D) Atmospheric-oceanic disturbances such as El Nino would occur more often.
cannot be inferred

(E) Conventional measuring techniques would be a feasible method of studying the physical properties of the ocean.
Yes, since in the lat paragraph we are given that low frequency waves are easily detectable


----------------------------------------------------------------------------------------



7. ​​Which of the following, if presented as the first sentence of a succeeding paragraph, would most logically continue the discussion presented in the passage?

Pre-thinking

Follow up question

[b]Last paragraph ends with the claim tat tomography's first trials were successful. We need to find something related to this information like: "One problem that emerged after the first trials was...."

[/b]

(A) Timekeeping in medical tomography must be precise because the changes in travel time caused by density fluctuations are slight.
Medical tomography is out of scope here

(B) To understand how ocean acoustic tomography works, it is necessary to know how sound travels in the ocean.
This information is related to the last sentence of the paragraph. Hence correct

(C) Ships are another possibility, but they would need to stop every 50 kilometers to lower measuring instruments.
Out of scope

(D) These variations amount to only about 2 to 3 percent of the average speed of sound in water, which is about 1, 500 meters per second.
Out of scope

(E) The device used in medical tomography emits a specially coded signal, easily distinguishable from background noise.
Out of scope


----------------------------------------------------------------------------------------


It's a great day to be alive!
GMAT Club Bot
Re: Before 1965 many scientists pictured the circulation of the ocean’s wa   [#permalink] 10 Mar 2020, 00:21
Display posts from previous: Sort by

Before 1965 many scientists pictured the circulation of the ocean’s wa

  new topic post reply Question banks Downloads My Bookmarks Reviews Important topics  





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