Model Questions for UPSC PRE CSAT PAPER SET - 55

Model Questions for UPSC PRE CSAT PAPER SET - 55

Passage 1

There are a instances of diseases that have laid waste huge tracts of forests throughout India. Caused mainly by pathogens and pests, these diseases are deadly and are capable of wiping out entire forests and plantations, causing immense economic as well as ecological loss.

 Meanwhile, forest pathologists and entomologists are grappling with new maladies that are surfacing almost every year. But with meagre resources and just a few experts working on the issue, things are heading virtually towards a cul-de-sac.

Moreover, no assessment has been made so far to quantify the devastation. While large chunks of forests fall prey to maladies, it is also an opportunity for some politicians and timber merchants to cash in on it. Research and documentation on forest disease, particularly on forest pathology, began in India way back in 1929, by pioneering pathologists KD Bagchi and BK Bagchi. Although it has been eight decades since then, not much headway has been made in this direction. The forestry sector today is ailing due to its misplaced priorities, resource crunch, and mismanagement. “Forest management lacks scientific approach,’ says Surendra Kumar, director of the Himalayan Forest Research Institute (HFRI), Shimla.

The scientific community involved with forest diseases is today a dispirited lot. With only a few stalwarts left in this field, forest disease is a neglected area of research. Moreover, bureaucracy is increasingly taking over the scientific institutions and scientists in most of these institutes are a marginalised group.

To top it all, there are no institutions dedicated to forest diseases. Although the ministry of environment and forests is the facilitator for such research, it is not paying enough attention to promote scientific research on forest diseases. In fact, the government’s lackadaisical approach came to the fore with the Sal borer epidemic in Madhya Pradesh in 1998. While forest bureaucracy slept, the beetles merrily continued to wipe out entire tracts of precious Sal forests. Eventually, with no solution in sight, thousands of valuable trees were hacked. There were also allegations that the Sal tragedy was a chance for the timber mafia in the state to cash in on timber through the legal loophole, with the nexus of politicians.

Today, things haven’t changed one bit. India’sforest department and research institutes have yet to formulate contingency plans to face any assault of similar dimensions.

Forest diseases are elusive. Although experts claim that they know quite a lot about forest diseases, there are still aspects of the maladies that are not completely understood. Says RS Bhandari, entomologist in the Forest Research Institute (FRI), Dehradun, “We know about all the important pests and insects, their life cycles and their development. But there are a few diseases which remain an enigma.” According to Jamaluddin, head of the pathology department in the Tropical Forest Research Institute (TERI), Jabalpur, “Due to micro climatic changes, we are discovering new aspects of the same disease every year. Diseases have also increased manifold.” Another FRI scientist points out that although forest diseases
are increasing, there is no study to estimate the economic and ecological damage caused by these pests and pathogens.

Varying with different geophysical regions and climatic conditions, pathogens and pests are essentially responsible for the tree maladies and then mortality. When the pristine, natural and mixed forests existed, forest diseases acted as a natural control measure to check the proliferation of a particular species that could threaten the balance of the ecosystem. Perhaps, this is why forest diseases aled into insignificance in the past. But today, with shrinking forests and increasing monoculture plantations, any outbreak of disease takes on a virulent form.

To top this, changed climatic and forest patterns nd environmental pollution have given rise to newer forms of forest diseases. While trees are forced to take an  additional load of human-induced environmental changes, the introduction of mono culture has substantially increased the problems. Whatever little we know about forest diseases today comes primarily through mycology, the study of forest pathogens. Mycology explains that the prime pathological reasons for forest disease are fungi, bacteria and viruses. “Among these, fungi playa major role, while the other two are relatively less significant. There are 150 to 200 major pathological infections in central India. Out of these, only five per cent are bacterial. The rest are fungal,” says Jamaluddin.

     Most of these pathogens stay close to a tree waiting for a chance to infiltrate. Their entry points are small openings or wounds in the tree. However, invasion is not always easy. Like human beings, trees also have antibodies that fight anything alien. In case of invasion from the trunk of a tree, the sapwood acts as a shield and secretes enzymes to fight pathogens. But when attacked and conquered, there are tell-tale signs in the form of knotty growths of fruit bodies that are extensions of the fungi in the tree.

1. Which of the following is the author most likely to agree with?

(a) The ministry responsible should take a more serious view towards research in forest diseases.
(b) There is a likelihood of another forest disease epidemic, similar to the Sal Borer epidemic, spreading in the country.
(c) There needs to be a more coordinated effort towards dealing with forest diseases in India.
(d) All of the above.

2. Which of these incidents discourages the government to formulate any kind of concrete plans?

(a) India lacks specialists in this area of forestry
(b) The government is not able to work in concomitance with specialists, like entomologists and pathogenists
(c) The prevalence of malpractices, such as the alleged nexus of politicians with some of the forest officials
(d) None of the above

3. Which of these statements cannot be inferred from the passage?

(a) With the variation of different climatic conditions, pests responsible for forest tree degradation, disappear
(b) There are hardly any committed institutions in India, for the promotion of research in forest diseases in India
(c) It is possible that the timber mafias could spread their network with help from vested interests in the political and bureaucratic brass
(d) None of the above

4. The discussion on the present condition of forest diseases proves that

(a) There must be a cooperative endeavour by scientists, government officials and politicians to weed out the possibilities of forest diseases
(b) A lot more needs to be done by the government for sustaining the ecological balance
(c) Hitherto forestry has been a neglected area of research
(d) None of the above

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Passage 2

      For years, the contents of a child’s sandbox have confounded some of the nation’s top physicists. Sand and other granular materials, such as powders, seeds, nuts, soils, and detergent, behave in ways that seem to undermine natural laws and cost industries ranging from pharmaceuticals to agri-business and mining, billions of dollars.

   Just shaking a can of mixed nuts can show you how problematic granular material can be. The nuts do not ‘mix’; they ‘unmix’ and sort themselves out, with the larger Brazil nuts on top and the smaller peanuts at the bottom. In this activity and others, granular matter’s behaviour apparently goes counter to the second law of thermodynamics, which states that entropy, or disorder, tends to increase in any natural system.

   Mimicking the mixed-nut conundrum with a jar containing many small beads and one large bead, one group of physicists claimed that vibrations causing the beads to percolate open up small gaps rather than larger ones. Thus, when a Brazil nut becomes slightly airborne, the peanuts rush in underneath and gradually nudge it to the top. Another group of physicists colour coded layers of beads to track their circulation in a container and achieved a different result. Vibrations, they found, drive the beads in circles up the centre and down the sides of the container. Yet downward currents, similar to convection currents in air or water, are too narrow to accommodate the larger bead, stranding it on top.

One industrial engineer who has studied the problem says that both the ‘percolation’ and ‘convection current’ theories can be right, depending upon the material, and that percolation is the major factor with nuts. Given the inability of scientists to come up with a single equation explaining unmixing, you can see why industrial engineers who must manage granular materials go a little, ‘well, nuts’! Take Pharmaceuticals for instance. There may be six types of powders with different-sized grains in a single medicine tablet. Mixing them at some speeds might sort them, while mixing at other speeds will make them thoroughly amalgamated. One aspirin company still relies on an experienced employee wearing a latex glove who pinches some powder in the giant mixing drum to see if it ‘feels right’.

Granular material at test can be equally frustrating to physicists and engineers. Take a tall cylinder of sand. Unlike a liquid, in which pressure exerted at the bottom increases in direct proportion to the liquid’s height, pressure at the base of the sand cylinder doesn’t increase indefinitely. Instead, it reaches a maximum value and stays there. This quality allows sand to trickle at a nearly constant rate through the narrow opening separating the two glass bulbs of an hourglass, thus measuring the passage of time. Physicists have also found that forces are not distributed evenly throughout granular material. It is this characteristic that may account for the frequent rupturing of silos in which grain is stored. In a silo, for instance, the column’s weight is carried from grain to grain along jagged chains. As a result the container’s walls carry more of the weight than its base, and the force is significantly larger at some points of contact than at others. Coming up with equations to explain, much less predict, the distribution of these force chains is extremely difficult.

    Again, using beads, physicists developed a simple theoretical model in which they assume that a given bead transmits the load it bears unequally and randomly onto the three beads on which it rests. While the model agrees well with experimental results, it does not take into account all of the mechanisms of force transmission between grains of sand or wheat.
In the struggle to understand granular materials, sand-studying physicists have at least one thing in their favour. Unlike particle physicists who must secure billions of dollars in government funding for the building of super-colliders in which to accelerate and view infinitesimal particles, they can conduct experiments using such low-cost, low-tech materials
as sand, beads, marbles, and seeds. It is hoped that more low-tech experiments and computer simulations will lead to equations that explain the unwieldy stuff and reduce some of the wastage, guesswork, and accidents that occur in the various industries that handle it.

5. The percolation theory of unmixing is best illustrated by which of the following examples?

(a) Contents settling in a bag of potato chips so that the package appears less full after handling
(b) Currents of small beads blocking the upward movement of large beads in a shaken container
(c) Larger rocks rising to the surface in a garden ‘after a period of frost
(d) Large nuts blocking the upward movement of small nuts in a shaken container

6. In saying that the percolation and convection current theories may both be right, the industrial engineer means that

(a) though the theories have different names, they describe same physical mechanism
(b) both theories are still unproven, as they have not been tested on a variety of materials.
(c) neither theory is supported by an adequate mathematical basis
(d) the mechanism causing unmixing varies depending upon the type of granular material

7. Which of the following appears to be the best solution for combating the ‘unmixing’ problem faced by pharmaceutical manufacturers that must prepare large quantities of powders?

(a) To mix all the powders together at the same speed
(b) To craft powders
(c) To craft powders so that all the grains have similar sizes and shapes
(d) To hire engineers who have years of experience in powder mixing

8. The passage implies that if the top bulb of an hourglass were filled with water instead of sand the pressure pushing the water through the opening would

(a) Remain constant as water trickles through the opening
(b) Decrease as water trickles through the opening
(c) Increase as water trickles through the opening
(d) Be directed at the walls of the container rather than the base

Passage 3

 After President George W. Bush signed the United States-India Nuclear Cooperation Bill, he called up Prime Minister Manmohan Singh to tell him how pleased he was at this development. While welcoming this event, the Prime Minister took the opportunity to tell the President that there remained areas of concern that needed to be addressed during the negotiation of the bilateral agreement (called the 123 agreement, after the relevant clause number in the US Atomic Energy Act, 1954). The US has entered into sometwenty-five 123  agreements with various countries, including the one concerning Tarapur. The Tarapu  agreement concluded in 1963 was unique in that it guaranteed supplies of enriched uranium fuel from the US for running the Tarapur reactors for their entire life. However, after 1978 the US did not supply fuel saying its domestic legislation (under the Nuclear NonProliferation Act) prevented it from doing so. India argued that Tarapur was an inter-governmental agreement and hence it had to be honoured by the US. But to no avail. However, later the US allowed France to supply fuel to India. Subsequently, the USSR (now Russia) and even China supplied fuel for Tarapur. The lesson from the Tarapur episode is that US breached with impunity even a cast-iron guarantee it had furnished. Considerable bitterness grew between the US and India and extended to many other areas beyond the nuclear one. When India agreed, reluctantly, in March 2006 to put imported reactors under “safeguards in perpetuity”, the US consented to the Indian insistence on assurances of fuel supply. This meant India could build up a stockpile of fuel to tide over disruption in supply and the US would agree to work with other countries, namely Russia, France, and Britain, to arrange alternate supplies. The US legislation, based on the Hyde Bill, forbids India building up a stockpile of nuclear fuel. It also obligates the US administration to work with other Nuclear Supplier Group countries to get them to suspend supplies to India, if the US has done so under some provision of the Hyde Bill. It is not evident how the US can address the legitimate concerns of India on continued fuel supply, given the boundaries set by the Hyde Bill. With regard to future nuclear tests, the Prime Minister has said, India is only committed to a voluntary moratorium. A moratorium is only a temporary holding off of an activity, conditioned by specific circumstances that obtained at the time when such a declaration was made. It cannot be construed as a permanent ban. The Hyde Bill has sought to make the moratorium into a permanent ban. However, there is no such restraint imposed on the US, China, Pakistan or any other country. In bringing up this issue, I do not wish to suggest that, I favour a resumption of tests by India. But India cannot prevent other countries from carrying out tests. It is, therefore, unacceptable that India forfeits its right to test for all time to come under the agreement with the US. Even if the 123 agreement is silent on the issue, Indian negotiators must put this issue on the table. The Hyde Bill calls for suspension of all cooperation and fuel supplies and even calls for return of all equipment and materials supplied earlier in the event of a test. It baffles one how India can return reactor installations that might have been operated a few years, were such a contingency to arise in future. The differences over the definition of “full civilian nuclear cooperation” have been discussed in the media. The Indian understanding was that reprocessing of spent fuel, enrichment of uranium, and production of heavy water also formed part of the term “full civilian nuclear cooperation.” In the congressional debate, it has been noted that these were construed by the US to be in the nature of military activities and not civilian. India’s future plans for Thorium utilisation for civil nuclear power depend crucially on reprocessing. Similarly, civil nuclear power units using natural uranium require heavy water as reactor coolant and moderator. Equally, if India were to embark on a sizeable light water reactor programme, it may like to have control on supply of enriched uranium for economic and supply security reasons. India has technologies of its own in these areas and will develop them further in the years ahead. If the Indo-US agreement moves ahead in the manner its sponsors have speculated, in a few decades from now some 90 per cent of the nuclear installations in India would be open to International Atomic Energy Agency inspections. In that scenario, how can India reconcile to the embargo from nuclear advanced countries on the export of enrichment, reprocessing, and heavy water technologies? Even if the issue were to be papered over now, it will then look from India’s point of view to have been a very bad bargain.

9. What is the Indian understanding of the definition of “full civilian nuclear coop ration”?

(a) Enrichment of uranium
(b) Reprocessing of spent fuel
(c) Production of heavy water
(d) All of the above

10. With reference to the passage, select which of the following statements is/are incorrect?

A. US did not supply fuel to India after 1987.
B. The Hyde Bill calls for suspension of all cooperation and fuel supplies.
C. India can prevent other countries from carrying out the test.

(a) A and B
(b) B only
(c) A and C
(d) A, B and C


1 (b) 2 (c) 3 (d) 4 (a) 5 (b) 6 (a) 7 (c) 8 (d) 9 (d) 10 (c)

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