A Significant Development In Mining Safety - IELTS Reading Answers & Explanations
From Cambridge IELTS 17 General Training Reading Test 1 · Part 3 · Questions 28–40
Reading Passage
==== Read the text below and answer questions 28-40 ====
A significant development in mining safety
A Coal has been used as a source of fuel for over 5,000 years, but for most of that time it was probably gathered from places where it was exposed on the surface of the ground. It is possible that the Romans undertook some mining, but coal mines across Europe largely date from the 13th century. Thereafter coal production increased steadily and it gradually replaced charcoal and wood as a source of heat and energy.
Initially, coal mines were fairly shallow, but they quickly reached the point where artificial lighting was necessary. At first the lights used would have been no different from those used domestically – candles and simple oil lamps. But as coal mines became deeper, miners encountered a new and terrible problem — firedamp. This was a natural gas, principally consisting of methane, that exploded on contact with a naked flame. The first known major firedamp explosion, which killed 99 people, took place in Belgium in 1514 and as new technology was used to mine at increasingly deep levels, the problem got worse.
B The simplest solution was to improve the ventilation of the mine. Many mines had only one shaft leading from the surface down to the working area below. Ventilation could be improved to some extent by dividing this into a downcast (bringing in fresh air) and an upcast (returning foul air and firedamp to the surface).
But what was really needed was a safe lamp that could not ignite firedamp. The earliest forms of safety lighting sought to produce light without using a naked flame. One early method tried to utilise the fact that skins removed from decaying fish contain the element phosphorus, which emits light in the form of phosphorescence. Unfortunately, this phosphorus is highly toxic, flammable and can self-ignite-hardly desirable properties in a safety light.
An alternative was a device invented in about 1750, consisting of a flint which struck against a piece of iron when a handle was turned, creating a shower of sparks which lit up the surrounding area. These were believed to be too cool to ignite firedamp. This device had major drawbacks — extra manpower had to be used to operate it continuously, and it also required regular maintenance and replacement. But worst of all, it was not in fact safe, and numerous accidents were caused when the sparks ignited firedamp. Nonetheless, it was considered to be the least dangerous form of lighting at the time.
C By about 1810 the problem was becoming acute, and in some cases there was no alternative to working in the dark. Some mines were being forced to stop production, with serious economic consequences for the mine owners and local communities. The general response, however, was to keep going and reluctantly accept the inevitable deaths from ignition of firedamp as a regrettable, but not especially remarkable, consequence of coal mining.
The miners themselves could do little w they were largely illiterate, and depended on the mine owners for a livelihood However, the clerical, medical and legal professions were beginning to take notice. After 92 men and boys were killed in 1812 by an explosion at Felling Colliery in northern England, several professional people took action and a society was set up to raise funds for the discovery of new methods of lighting and ventilating mines. The first report of the society stated, ‘It is to scientific men only that we must look up for assistance in providing a cheap and effectual remedy.’
D As the leading chemist of the day, and an expert on gases, Sir Humphrey Davy was a natural choice from whom to seek help, and he was approached by the society in 1815. The general belief nowadays is that he was the inventor of the first miners’ safety lamp, in which the flame was enclosed by a mesh screen containing very small holes. Air could enter the lamp through the holes, but they were too small to allow the flame of the lamp to pass through them and ignite any firedamp present in the mine tunnels. Davy presented a paper describing the lamp in November 1815, and it was trialled in January 1816.
However, a few weeks prior to Davy’s presentation, an engineer called George Stephenson had independently designed and demonstrated a lamp based on the same scientific principles. After much discussion and argument, he was eventually recognised as deserving equal credit for the discovery, but the time needed for this recognition to be given meant that the miners’ safety lamp had already been called the ‘Davy lamp’ and it is called that today.
E But in fact, the real inventor of the safety lamp was a man called Dr William Reid Clanny, who in 1813 had been awarded a silver medal by the Royal Society of Arts, Manufacturers and Commerce for his own version of a safety lamp. Clancy’s first lamp did not fulfil the needs of the ordinary working miner as it was rather heavy and cumbersome.
But rather than seeking to glory in his achievement, he recognised its deficiencies and continued to work to improve it, as well as sharing his knowledge with others. George Stephenson acknowledged a debt to Clanny’s research, and Humphrey Davy visited him in 1815 shortly before completing the design for his own safety lamp but to this day Dr Clanny remains a forgotten hero.
Questions
Questions 28–32 Matching Headings
The text has five sections A-E. Choose the correct heading for each section from the list below.
List of Headings
i A controversy over two versions of an invention
ii The need to mine deeper for good quality coal
iii Growing awareness of the need to improve conditioners for miners
iv A new danger caused by developments in mining
v The impact of poor air quality in mines on miner’s health
vi Early attempts to provide lighting without flames
vii A demand by miners for new technology
viii A person whose work never received full recognition
Questions 33–36 Summary Completion
Complete the summary below. Choose ONE WORD ONLY from the passage.
The problem of providing artificial lighting in coal mines
Coal mines in Europe only really developed from the 13th century. As they became deeper, the methods used for lighting them created a risk of 33 due to the presence of fiAcredamp. One solution was to improve ventilation by separating the 34 into two parts. However better lighting was also needed. One suggestion was to use a chemical found in the skins of fish, but this was found to be unsafe. Another possibility was a device which created 35 as it was believed these would not ignite the gas. However, this required additional 36 as well as maintenance and replacement and it was also unsafe.
Questions 37–40 Multiple Choice (One Answer)
Choose the correct letter A-D.
Answers & Explanations Summary
| # | Answer | Evidence | Explanation |
|---|---|---|---|
| Q28 | iv | But as coal mines became deeper, miners encountered a new and terrible problem — firedamp | Excerpt/Passage Explanation: The passage says that when miners went deeper into coal mines, they found a dangerous problem called firedamp, which means the deeper mining created this new danger. Answer Explanation: The answer means that Section A talks about a new danger that miners faced because of mining deeper for coal. Reason For Correctness: The correct answer is 'iv' because Section A describes how miners faced a serious problem called firedamp, a gas that could explode. This problem happened as they began mining deeper into the ground, making it a new danger related to mining. |
| Q29 | vi | The earliest forms of safety lighting sought to produce light without using a naked flame | Excerpt/Passage Explanation: The passage says that the first kinds of safe lights were made to give light without using a flame. This is important because it shows the effort to make mining safer. Answer Explanation: The answer means that Section B talks about early tries to make lights for mines that did not use a flame. Reason For Correctness: The correct answer is 'vi' because Section B discusses the problems with safety lighting in coal mines and early attempts to create lights that would not ignite dangerous gas, firedamp. This directly relates to finding lighting solutions without using flames. |
| Q30 | iii | Some mines were being forced to stop production, with serious economic consequences for the mine owners and local communities. The general response, however, was to keep going and reluctantly accept the inevitable deaths from ignition of firedamp as a regrettable, but not especially remarkable, consequence of coal mining | Excerpt/Passage Explanation: The passage says that some mines had to close because they were too dangerous to work in. Even though people accepted that miners were dying from unsafe conditions, it made others realize that new and better safety methods were needed. Answer Explanation: The answer means that people started to understand that miners needed better working conditions. Reason For Correctness: The correct answer is 'iii' because Section C discusses how the situation for miners became urgent, with some mines even having to stop working due to poor conditions and the dangerous environment. This led to more awareness among professionals and society about the miners' lack of safety and the need for improvements. |
| Q31 | i | After much discussion and argument, he was eventually recognised as deserving equal credit for the discovery, but the time needed for this recognition to be given meant that the miners' safety lamp had already been called the 'Davy lamp' and it is called that today | Excerpt/Passage Explanation: The passage says that there was a lot of talk and disagreement about who created the lamp. Both men, Davy and Stephenson, ended up getting some credit, but Davy's name became the one people used first. Answer Explanation: The answer is 'i', which means there was a disagreement about who invented a new lamp for miners. Reason For Correctness: The correct answer is 'i' because the passage discusses how Sir Humphrey Davy and George Stephenson both created designs for a safety lamp, leading to a debate over who should get credit for the invention. The mention of this disagreement makes it a controversy about an invention. |
| Q32 | viii | But rather than seeking to glory in his achievement, he recognised its deficiencies and continued to work to improve it, as well as sharing his knowledge with others | Excerpt/Passage Explanation: The passage talks about how Dr. Clanny did not want to be praised for himself. He saw that his lamp had problems and worked hard to make it better and helped other people learn. Answer Explanation: The answer means that Dr. William Reid Clanny did important work, but people did not give him full credit for it. Reason For Correctness: The correct answer is 'viii' because the passage explains that Dr. Clanny created a safety lamp but remained mostly unknown and not properly recognized for his contributions, even though his work was valuable. The passage highlights that he improved his invention and shared knowledge, which shows he deserves recognition. |
| Q33 | Explosion | The first known major firedamp explosion, which killed 99 people, took place in Belgium in 1514 and as new technology was used to mine at increasingly deep levels, the problem got worse | Excerpt/Passage Explanation: The passage is saying that a big explosion happened in 1514 because of firedamp gas in a coal mine. This explosion was very dangerous, and as mines got deeper, more explosions happened. Answer Explanation: The answer is 'Explosion'. This means a big and dangerous burst that can happen suddenly. Reason For Correctness: The correct answer is 'Explosion' because the passage talks about firedamp, a natural gas in coal mines, that could explode when touched by a flame. The danger of explosions was a serious problem as mines became deeper, making artificial lighting really risky. |
| Q34 | Shaft | Many mines had only one shaft leading from the surface down to the working area below. Ventilation could be improved to some extent by dividing this into a downcast (bringing in fresh air) and an upcast (returning foul air and firedamp to the surface) | Excerpt/Passage Explanation: The passage says that many mines had one shaft, which is a big hole going down into the mine. To help with air, they could separate this shaft into two parts: one for fresh air to come in and one for bad air to go out. Answer Explanation: The answer is 'shaft'. A shaft is a big hole that goes down into the ground, like a tunnel the miners use to reach the coal. Reason For Correctness: The correct answer is 'shaft' because in the passage, it talks about how many mines only had one shaft that led from the surface down. To improve ventilation, they needed to divide this one shaft into two parts: one for bringing in fresh air and another for bringing up bad air and firedamp. |
| Q35 | Sparks | An alternative was a device invented in about 1750, consisting of a flint which struck against a piece of iron when a handle was turned, creating a shower of sparks which lit up the surrounding area | Excerpt/Passage Explanation: The passage talks about a device made in 1750 that made sparks to light up the mine. These sparks came from hitting flint against iron, but they created a risk because they could ignite dangerous gas. Answer Explanation: The answer is 'sparks'. It means small pieces of fire or light that fly out from something. Reason For Correctness: The correct answer is 'sparks' because the passage discusses a device that created sparks to provide light in coal mines. The sparks were thought to be safe, but they ended up causing danger by igniting firedamp, which is a gas that can explode. |
| Q36 | Manpower | extra manpower had to be used to operate it continuously, and it also required regular maintenance and replacement | Excerpt/Passage Explanation: The passage says that to use the device safely, more workers were needed to keep it running all the time and also to take care of it. Answer Explanation: The answer is 'manpower'. This means the number of workers needed to do a job. Reason For Correctness: The correct answer is 'manpower' because the passage talks about a device that created sparks for lighting in coal mines, which needed many workers to operate. This device was not safe and required extra workers to keep it running. |
| Q37 | A | the general response, however, was to keep going and reluctantly accept the inevitable deaths from ignition of firedamp as a regrettable, but not especially remarkable, consequence of coal mining | Excerpt/Passage Explanation: The passage says that mine owners continued to work in the mines and accepted that some workers would die from explosions. This shows they did not really care about safety. Answer Explanation: The answer means that most mine owners did not pay attention to safety problems in 1810. Reason For Correctness: The correct answer is A because the passage explains that in 1810, the general response of mine owners was to keep going with mining operations, even though they accepted that deaths from firedamp explosions were a regrettable but not surprising part of coal mining. This shows that they disregarded safety issues. |
| Q38 | B | After 92 men and boys were killed in 1812 by an explosion at Felling Colliery in northern England, several professional people took action and a society was set up to raise funds for the discovery of new methods of lighting and ventilating mines | Excerpt/Passage Explanation: The passage tells us that after the explosion at Felling Colliery, many important people saw the need for safety and decided to help find ways to make mining safer. Answer Explanation: The answer means that after the explosion in 1812, people began to think more seriously about how to keep miners safe. Reason For Correctness: The correct answer is B because the passage explains that after the explosion at Felling Colliery, many professionals noticed the problem and took action. They formed a society to find better lighting and ventilation for the mines. This shows that the explosion changed how people viewed safety in mining. |
| Q39 | D | the flame was enclosed by a mesh screen containing very small holes. Air could enter the lamp through the holes, but they were too small to allow the flame of the lamp to pass through them and ignite any firedamp present in the mine tunnels | Excerpt/Passage Explanation: The passage says that Davy's lamp had a flame that was covered by a special screen with tiny holes. The holes let air in but were too small for the flame to get out and start a fire with the dangerous gas in the mines. Answer Explanation: The answer means that the flame of Davy's lamp was safe because it couldn't go through the tiny holes in the mesh screen. Reason For Correctness: The correct answer is D because the passage explains that Davy's lamp had a flame that was enclosed by a mesh screen with very small holes. This design allowed air to come in but kept the flame from passing through and igniting the dangerous firedamp gas in the mine. This made it safer than previous lighting methods. |
| Q40 | D | However, a few weeks prior to Davy's presentation, an engineer called George Stephenson had independently designed and demonstrated a lamp based on the same scientific principles | Excerpt/Passage Explanation: The passage says that just before Davy showed his lamp, George Stephenson had already made and tested a safety lamp using similar scientific ideas. Answer Explanation: The answer means that Stephenson made a safety lamp that worked before Davy did. Reason For Correctness: The correct answer is 'D' because the passage states that George Stephenson independently designed and demonstrated a safety lamp based on the same scientific ideas as Davy, showing that he created a working lamp before Davy presented his lamp. |