ENVIRONMENTAL SCIENCE (HIGH SCHOOL)
16th Edition
ISBN: 9781337569743
Author: Miller
Publisher: CENGAGE L
expand_more
expand_more
format_list_bulleted
Question
Chapter 14, Problem 1CR
To determine
The toxic effects of mercury and the ways in which people are exposed to mercury and its compounds.
Expert Solution & Answer
Answer to Problem 1CR
The toxic effects of mercury include nervous system damage, organ damage especially the brain, kidney, and lungs. The exposure to mercury during pregnancy can cause congenital disabilities and brain damages in the fetus. People are exposed to mercury and its compounds through emission from burying coal powder, industrial plants, smelters, solid-waste, incinerators, cements kilns and so on.
Explanation of Solution
Mercury is a toxic compound which is responsible for causing many defects in humans. The mercury mainly damages the nervous system by directly acting on the brain. It also damages the organs like the liver and lungs. In the lungs, the mercury deposit in the form of aerosols or powders and lead to respiratory disorders like COPD and so on.
The mercury ingested through water can cause excessive damage to the liver. Pregnant females and children are more likely to suffer from mercury poisoning. The pregnant females exposed to mercury can give birth to a child with fetal defects.
The sources by which a person is exposed to mercury and its products are:
(i) Burning powdered coal
(ii) Emissions from industrial plants
(iii) Toxic waste effluents in the rivers, lakes, ponds, and wells.
(iv) Smelters
(v) Solid waste incinerators
(vi) Cement kilns.
Want to see more full solutions like this?
Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!
Students have asked these similar questions
1. Calculate the elevation of the water table at each well location and write the approximate elevation on the line next to each well. Next, use a colored pencil to draw smooth 10-foot contours that show the shape of the water table. (Start with the 1160-foot contour.) Use a pencil of a different color to draw arrows on the map to indicate the direction of the slope of the water table.
a. Toward which direction (downward) does the water table slope?
b. Referring to the site of the proposed water well, at approximately what depth below the surface should the proposed well intersect the water table?
2. Assume that a dye was put into well A on May 10, 2017, and detected in well B on May 25, 2018. What was the rate of groundwater movement between the two wells, in centimeters per day? (Hint: Convert feet to centimeters.)Velocity:_____________centimeters per day
PART 1 Activity 8.7 Ground Subsidence (Figure 8.7)
1. What is the general relationship between ground subsidence and the level of water in the well?
2. What was the total ground subsidence, and what was the total drop in the level of water in the well during the period shown on the graph?Total ground subsidence: —--feetTotal drop in well level: —-- feet
3. During the period shown on the graph, on aver-age, about how much land subsidence occurred with each 20-foot decrease in the water level in the well: 1 foot, 5 feet, or 10 feet?Subsidence: about—----foot/feet
4. Was the ground subsidence that occurred between 1930 and 1950 less or more than the subsidence that occurred between 1950 and 1970?Ground subsidence from 1930 to 1950 was—----than that from 1950 to 1970.
5. Notice that minimal subsidence occurred from 1935 to 1950. Refer to the well water level during the same period of time and suggest a possible reason for the reduced rate of subsidence.
PART 2 Activity 8.8 Examining a…
PART 1 Activity 8.7 Ground Subsidence (Figure 8.7)
1. What is the general relationship between ground subsidence and the level of water in the well?
2. What was the total ground subsidence, and what was the total drop in the level of water in the well during the period shown on the graph?Total ground subsidence: —--feetTotal drop in well level: —-- feet
3. During the period shown on the graph, on aver-age, about how much land subsidence occurred with each 20-foot decrease in the water level in the well: 1 foot, 5 feet, or 10 feet?Subsidence: about—----foot/feet
4. Was the ground subsidence that occurred between 1930 and 1950 less or more than the subsidence that occurred between 1950 and 1970?Ground subsidence from 1930 to 1950 was—----than that from 1950 to 1970.
5. Notice that minimal subsidence occurred from 1935 to 1950. Refer to the well water level during the same period of time and suggest a possible reason for the reduced rate of subsidence.
PART 2 Activity 8.8 Examining a…
Chapter 14 Solutions
ENVIRONMENTAL SCIENCE (HIGH SCHOOL)
Knowledge Booster
Similar questions
- N (120') -1180- (120') (105') 0 50 100 feet 1160- -1140- A (100') B (90') (80) Proposed well -1120. (95) (80°) (80') 1100 Well location (Depth to top of water table) A Figure 8.14 Hypothetical topographic map showing the locations of several water wells. The numbers in parentheses indicate the depth of the water table below the surface in each well.arrow_forwardDue tomorrow 3/27 2 pm if you could give me detailed solutions pleasearrow_forwardDue 3/27 at 2pmarrow_forward
- Based on the Climate-Change Censorship campaign article (WSJ) does the phenomenon of scientific certainty ever exist? Why or why not?arrow_forwardBased on the Climate-Change Censorship campaign article (WSJ) some think that twitter, snapchat, instagram, facebook, google, messenger, et al. are the new forums for public discourse. Should the big tech company owners of these sites be allowed to censor the information and comments posted by the public?arrow_forwardHow does radon enter a home?arrow_forward
arrow_back_ios
SEE MORE QUESTIONS
arrow_forward_ios
Recommended textbooks for you
Applications and Investigations in Earth Science ...Earth ScienceISBN:9780134746241Author:Edward J. Tarbuck, Frederick K. Lutgens, Dennis G. TasaPublisher:PEARSON
Exercises for Weather & Climate (9th Edition)Earth ScienceISBN:9780134041360Author:Greg CarbonePublisher:PEARSON
Environmental ScienceEarth ScienceISBN:9781260153125Author:William P Cunningham Prof., Mary Ann Cunningham ProfessorPublisher:McGraw-Hill Education
Earth Science (15th Edition)Earth ScienceISBN:9780134543536Author:Edward J. Tarbuck, Frederick K. Lutgens, Dennis G. TasaPublisher:PEARSON
Environmental Science (MindTap Course List)Earth ScienceISBN:9781337569613Author:G. Tyler Miller, Scott SpoolmanPublisher:Cengage Learning
Physical GeologyEarth ScienceISBN:9781259916823Author:Plummer, Charles C., CARLSON, Diane H., Hammersley, LisaPublisher:Mcgraw-hill Education,
Applications and Investigations in Earth Science ...
Earth Science
ISBN:9780134746241
Author:Edward J. Tarbuck, Frederick K. Lutgens, Dennis G. Tasa
Publisher:PEARSON
Exercises for Weather & Climate (9th Edition)
Earth Science
ISBN:9780134041360
Author:Greg Carbone
Publisher:PEARSON
Environmental Science
Earth Science
ISBN:9781260153125
Author:William P Cunningham Prof., Mary Ann Cunningham Professor
Publisher:McGraw-Hill Education
Earth Science (15th Edition)
Earth Science
ISBN:9780134543536
Author:Edward J. Tarbuck, Frederick K. Lutgens, Dennis G. Tasa
Publisher:PEARSON
Environmental Science (MindTap Course List)
Earth Science
ISBN:9781337569613
Author:G. Tyler Miller, Scott Spoolman
Publisher:Cengage Learning
Physical Geology
Earth Science
ISBN:9781259916823
Author:Plummer, Charles C., CARLSON, Diane H., Hammersley, Lisa
Publisher:Mcgraw-hill Education,