Lecture 19

Question 1

What is occupational toxicity

Answer 1

Occupational toxicity is any type of toxicity that can be encountered in the workplace.

• Can involve any route of exposure: Inhalation (most common), ingestion and/or topical contact
• Can be acute or chronic

Question 2

Painters

Answer 2

• Painters may be exposed to a range of toxic substances in their work. Some of the most common toxins painters may be exposed to include:
  1. Lead: Lead can be found in old paint, and can cause lead poisoning if inhaled or ingested. Painters who sand or scrape old paint may be exposed to lead dust, which can cause serious health problems.
  2. Solvents: Painters often work with solvents like turpentine, mineral spirits, and acetone. These solvents can be harmful if inhaled or absorbed through the skin, and may cause respiratory problems, skin irritation, and other health issues.
  3. Pigments: Some pigments used in paint contain toxic substances like cadmium, chromium, and cobalt. These substances can be harmful if inhaled or ingested, and may cause long-term health problems.
  4. Isocyanates: Painters who work with polyurethane paints may be exposed to isocyanates, which can cause respiratory problems, skin irritation, and other health issues.
  5. Methyl methacrylate: This chemical is found in acrylic paints and can cause respiratory issues, skin irritation, and other health issues if inhaled or absorbed through the skin.
• Painters should take precautions to protect themselves from exposure to these toxins, such as wearing protective equipment like gloves and masks, working in well-ventilated areas, and using less toxic paint alternatives whenever possible.

Question 3

Sculptors

Answer 3

• Sculptors may be exposed to a variety of toxic substances in their work. Some of the most common toxins sculptors may be exposed to include:
  1. Dust and fibers: Sculptors may work with materials like stone, metal, and wood, which can create dust and fibers that can be inhaled. This can cause respiratory problems and other health issues.
  2. Metal fumes: Sculptors who work with welding and casting may be exposed to metal fumes like lead, zinc, and copper. These fumes can cause respiratory problems, metal fume fever, and other health issues.
  3. Adhesives and solvents: Sculptors may use adhesives and solvents like epoxy and acetone to attach and finish their sculptures. These substances can be harmful if inhaled or absorbed through the skin, and may cause respiratory problems, skin irritation, and other health issues.
  4. Pigments: Some pigments used in sculpture, such as cadmium and lead, can be toxic if inhaled or ingested. These substances can cause long-term health problems.
  5. Resins and plastics: Sculptors may work with resins and plastics, which can release toxic fumes and dust if not handled properly. These substances can cause respiratory problems, skin irritation, and other health issues.
• Sculptors should take precautions to protect themselves from exposure to these toxins, such as wearing protective equipment like gloves and masks, working in well-ventilated areas, and using less toxic materials and alternatives whenever possible.

Question 4

Potters

Answer 4

• Potters may be exposed to a range of toxic substances in their work. Some of the most common toxins potters may be exposed to include:
  1. Silica dust: Potters often work with clay, which can contain silica. When clay is worked with, it can release silica dust, which can be inhaled and cause respiratory problems.
  2. Lead: Some pottery glazes may contain lead, which can cause lead poisoning if inhaled or ingested. Potters who work with lead glazes or who recycle clay from lead-glazed pieces may be exposed to lead dust, which can cause serious health problems.
  3. Cadmium and other metals: Some pottery glazes may contain cadmium, chromium, and other metals that can be toxic if inhaled or ingested. These substances can cause long-term health problems.
  4. Solvents: Potters may use solvents like acetone and turpentine to clean their tools and equipment. These solvents can be harmful if inhaled or absorbed through the skin, and may cause respiratory problems, skin irritation, and other health issues.
  5. Kiln fumes: Potters who work with kilns may be exposed to fumes from burning fuel or from glazes that release gases when fired. These fumes can cause respiratory problems, eye irritation, and other health
  issues.
• Potters should take precautions to protect themselves from exposure to these toxins, such as wearing protective equipment like gloves and masks, working in well-ventilated areas, and using less toxic materials and alternatives whenever possible.

Question 5

Athletes

Answer 5

• Athletes may be exposed to a range of toxins in their training and competition environments. Some of the most common toxins athletes may be exposed to include:
  1. Air pollution: Athletes who train outdoors may be exposed to air pollution from traffic, industry, and other sources. This can cause respiratory problems and other health issues.
  2. Pesticides and herbicides: Athletes who train on grassy fields or in outdoor environments may be exposed to pesticides and herbicides that are used to maintain the grounds. These substances can cause respiratory problems, skin irritation, and other health issues.
  3. Heavy metals: Some athletic equipment may contain heavy metals like lead or mercury, which can be toxic if inhaled or ingested. Athletes who use equipment like weights, helmets, or mouth guards may be exposed to these substances.
  4. Cleaning chemicals: Athletic facilities may use cleaning chemicals like bleach or ammonia, which can be harmful if inhaled or absorbed through the skin. Athletes who train in these facilities may be exposed to these substances.
  5. Steroids and other performance-enhancing drugs: Athletes who use performance enhancing drugs like steroids may be exposing themselves to serious health risks, including liver damage, heart problems, and mood disorders.
• Athletes and coaches should take precautions to protect themselves from exposure to these toxins, such as using
  protective equipment like masks, working out in well-ventilated areas, and using less toxic materials and alternatives whenever possible. Athletes should also be aware of the risks associated with performance-enhancing
  drugs and work with medical professionals to ensure their training and competition is safe and healthy.

Question 6

Fisherman

Answer 6

• Fishers may be exposed to a range of toxins in their work environment, depending on the location and type of fishing they engage in. Some of the most common toxins fishers may be exposed to include:
  1. Mercury: Fishers who consume fish that contain high levels of mercury may be at risk for mercury poisoning. This can cause neurological damage and other health problems.
  2. Pesticides and herbicides: Fishers who work on or near agricultural land may be exposed to pesticides and herbicides that are used to maintain crops. These substances can cause respiratory problems, skin irritation,
  and other health issues.
  3. Fuel and oil: Fishers who operate boats may be exposed to fuel and oil spills, which can contaminate water and pose health risks. These substances can cause respiratory problems, skin irritation, and other health issues.
  4. Lead: Some fishing gear, such as weights or sinkers, may contain lead, which can be toxic if ingested or inhaled. Fishers who handle or use these items may be at risk for lead poisoning.
  5. Carbon monoxide: Fishers who use gas-powered engines on boats may be at risk for carbon monoxide poisoning. This can cause dizziness, headaches, and other health problems.
• Fishers should take precautions to protect themselves from exposure to these toxins, such as wearing protective equipment like gloves and masks, working in well-ventilated areas, and using less toxic materials and
  alternatives whenever possible. They should also follow guidelines for safe fish consumption, which can help minimize the risks of mercury and other contaminants in fish.

Question 7

Mechanics

Answer 7

• Car mechanics may be exposed to a range of toxins in their work environment, including:
  1. Asbestos: Some older car parts, such as brake pads and clutch linings, may contain asbestos. When these parts are removed or replaced, asbestos fibers can become airborne and be inhaled, leading to serious respiratory problems.
  2. Solvents: Mechanics may use solvents like brake cleaner, carburetor cleaner, and degreasers to clean and repair car parts. These solvents can be harmful if inhaled or absorbed through the skin, and may cause respiratory problems, skin irritation, and other health issues.
  3. Lead: Mechanics who work on older cars may be exposed to lead in the form of leaded gasoline and lead-based paints. Lead can cause serious health problems, including neurological damage, if inhaled or ingested.
  4. Beryllium: Mechanics who work on air conditioning or refrigeration systems may be exposed to beryllium, a toxic metal that is used in some refrigerants. Beryllium can cause lung disease and other health problems.
  5. Diesel exhaust: Mechanics who work on diesel engines may be exposed to diesel exhaust, which contains a mixture of toxic gases and particulate matter. Diesel exhaust can cause respiratory problems, cardiovascular disease, and other health issues.
• Car mechanics should take precautions to protect themselves from exposure to these toxins, such as wearing protective equipment like gloves and masks, working in well-ventilated areas, and using less toxic materials and alternatives whenever possible. They should also follow proper disposal procedures for hazardous waste materials,
  such as used solvents and contaminated parts, to minimize the risks of environmental contamination.

Question 8

Chefs

Answer 8

• Chefs may be exposed to a range of toxins in their work environment, including:
  1. Cooking fumes: Chefs may be exposed to cooking fumes, which can contain harmful chemicals such as acrolein, formaldehyde,
  and polycyclic aromatic hydrocarbons (PAHs). Prolonged exposure to cooking fumes can cause respiratory problems, skin irritation, and other health issues.
  2. Cleaning chemicals: Chefs may use cleaning chemicals to maintain a clean work environment. These chemicals can be harmful if inhaled or absorbed through the skin, and may cause respiratory problems, skin irritation, and other health issues.
  3. Pesticides and herbicides: Chefs may work with fresh produce that has been treated with pesticides and herbicides. Exposure to
  these chemicals can cause respiratory problems, skin irritation, and other health issues.
  4. Heavy metals: Chefs may be exposed to heavy metals such as lead, cadmium, and mercury through the use of cookware and
  utensils. Prolonged exposure to heavy metals can cause neurological damage, kidney damage, and other health problems.
  5. Food additives and preservatives: Chefs may use food additives and preservatives to enhance the flavor and shelf life of their
  dishes. Some of these additives may be harmful if consumed in large quantities, and may cause allergic reactions and other
  health issues.
• Chefs should take precautions to protect themselves from exposure to these toxins, such as working in well-ventilated areas, using less toxic cleaning chemicals and cooking methods, and using non-toxic cookware and utensils. They should also properly wash and handle fresh produce to minimize exposure to pesticides and herbicides, and limit the use of food additives and preservatives in their dishes. Additionally, chefs should follow proper hygiene and sanitation practices to minimize the risk of foodborne illnesses.

Question 9

Publishers

Answer 9

• Publishers may be exposed to a range of toxins in their work environment, including:
  1. Printer ink: Publishers who work with printing presses may be exposed to printer ink, which can contain toxic chemicals like volatile organic compounds (VOCs), heavy metals, and carcinogens. Exposure to printer ink can cause respiratory problems, skin irritation, and other health issues.
  2. Adhesives and solvents: Publishers may use adhesives and solvents to bind books, print materials, or clean equipment. These substances can be harmful if inhaled or absorbed through the skin, and may cause respiratory problems, skin irritation, and other health issues.
  3. Paper dust: Publishers who work with paper or in paper mills may be exposed to paper dust, which can irritate the respiratory system
  and cause breathing difficulties.
  4. Mold and mildew: Publishers who work in damp or poorly ventilated environments may be at risk for mold and mildew exposure, which can cause respiratory problems, allergies, and other health issues.
  5. Electronic device radiation: Publishers who work with electronic devices, such as computers and mobile devices, may be exposed to radiation emitted by these devices. Prolonged exposure to electronic device radiation may increase the risk of cancer, reproductive problems, and other health issues.
• Publishers should take precautions to protect themselves from exposure to these toxins, such as wearing protective equipment like gloves and masks, working in well-ventilated areas, and using less toxic materials and alternatives whenever possible. They should also maintain a clean and dry work environment to minimize the risks of mold and mildew exposure, and take frequent breaks to avoid prolonged exposure to electronic device radiation.

Question 10

Miners

Answer 10

• Miners may be exposed to a range of toxins in their work environment, including:
  1. Dust: Miners may be exposed to dust from the rock and mineral particles they are mining. This dust can contain harmful
  substances such as silica, coal dust, and asbestos fibers, which can cause respiratory problems and lung diseases such as
  silicosis and black lung disease.
  2. Chemicals: Miners may be exposed to chemicals used in the mining process, such as cyanide, mercury, and sulfuric acid.
  These chemicals can be harmful if inhaled or absorbed through the skin, and can cause respiratory problems, skin irritation, and other health issues.
  3. Radiation: Miners may be exposed to ionizing radiation from naturally occurring radioactive materials in the rock and soil
  they are mining. Prolonged exposure to ionizing radiation can cause cancer, genetic mutations, and other health problems.
  4. Heavy metals: Miners may be exposed to heavy metals such as lead, cadmium, and mercury through the minerals they are
  mining. Prolonged exposure to heavy metals can cause neurological damage, kidney damage, and other health problems.
  5. Explosives: Miners may be exposed to toxic fumes and dust from explosives used in mining operations.
• Miners should take precautions to protect themselves from exposure to these toxins, such as wearing appropriate personal
  protective equipment (PPE) and working in well-ventilated areas. They should also follow proper safety protocols when handling chemicals and explosives, and properly handle and dispose of hazardous waste materials according to regulations. Additionally, miners should stay up-to-date with current safety guidelines and regulations to ensure they are working in a
  safe environment.

Question 11

Police officers

Answer 11

• Police officers may be exposed to a range of toxins in their work environment, including:
  1. Chemicals: Police officers may be exposed to chemicals such as tear gas, pepper spray, and other chemical agents used to subdue suspects. These chemicals can cause respiratory problems, skin irritation, and other health issues if inhaled or absorbed through the skin.
  2. Drugs: Police officers may be exposed to drugs and other illicit substances in the course of their duties, which can be
  harmful if inhaled or absorbed through the skin. They may also be at risk of accidental exposure to fentanyl, a powerful opioid that can be lethal in small amounts.
  3. Exhaust fumes: Police officers who work on traffic duty or in areas with heavy traffic may be exposed to exhaust fumes from vehicles. Prolonged exposure to exhaust fumes can cause respiratory problems and other health issues.
  4. Infectious agents: Police officers may be exposed to infectious agents such as blood-borne pathogens, bacteria, and viruses in the course of their duties. This can happen during medical emergencies or when dealing with individuals who may be carrying infectious diseases.
  5. Radiation: Police officers who work with X-ray equipment or who respond to incidents involving radiation may be
  exposed to ionizing radiation, which can cause cancer and other health problems.
• Police officers should take precautions to protect themselves from exposure to these toxins, such as wearing appropriate personal protective equipment (PPE) when handling chemicals and dealing with suspects. They should also follow proper safety protocols when working in areas with heavy traffic or loud noise. Additionally, police departments should provide resources and support to help officers manage stress and trauma related to their work.

Question 12

Toxicologist and pharmacologists

Answer 12

• Pharmacologists and toxicologists may be exposed to a range of toxins in their work environment, including:
  1. Chemicals: Pharmacologists and toxicologists work with various chemicals, including drugs, pesticides, and industrial
  chemicals. These chemicals can be harmful if inhaled or absorbed through the skin, and may cause respiratory problems, skin irritation, and other health issues.
  2. Radiation: Pharmacologists and toxicologists may use radioactive materials in their research, which can expose them to ionizing radiation. Prolonged exposure to ionizing radiation can cause cancer, genetic mutations, and other health problems.
  3. Animal toxins: Pharmacologists and toxicologists may work with animal toxins, such as venom, which can be toxic if
  not handled properly.
  4. Biological agents: Pharmacologists and toxicologists may work with biological agents, such as bacteria and viruses, which can cause infections and other health problems if proper safety protocols are not followed.
  5. Nanoparticles: Pharmacologists and toxicologists may work with nanoparticles, which can be toxic if inhaled or absorbed through the skin.
• Pharmacologists and toxicologists should take precautions to protect themselves from exposure to these toxins, such as wearing appropriate personal protective equipment (PPE), working in well-ventilated areas, and following proper safety protocols when working with chemicals, radioactive materials, and biological agents. They should also properly handle and dispose of hazardous waste materials according to regulations. Additionally, pharmacologists and toxicologists should stay up-to-date with current safety guidelines and regulations to ensure they are working in a safe environment.

Question 13

Radiologists

Answer 13

• Radiologists may be exposed to a range of toxins in their work environment, including:
  1. Radiation: Radiologists are exposed to ionizing radiation when performing medical imaging tests such as X-rays, CT scans, and mammograms. Prolonged exposure to ionizing radiation can cause cancer, genetic mutations, and other health problems.
  2. Contrast agents: Radiologists may use contrast agents, which are injected into the patient’s bloodstream to enhance the visibility of tissues and blood vessels during imaging tests. Some contrast agents can be toxic if not used properly, and may cause allergic reactions, kidney damage, and other health issues.
  3. Chemicals: Radiologists may work with chemicals, such as disinfectants and cleaning agents, to maintain a sterile environment in the imaging room. These chemicals can be harmful if inhaled or absorbed through the skin, and may cause respiratory problems, skin irritation, and other health issues.
  4. Lead: Radiologists may wear lead aprons and other protective gear to shield themselves from radiation exposure during
  imaging tests. However, prolonged use of lead gear may lead to lead poisoning, which can cause neurological damage and other health problems.
  5. Mercury: Radiologists may use mercury-containing devices, such as thermometers and blood pressure monitors, in the imaging room. Exposure to mercury can cause neurological damage and other health problems.
• Radiologists should take precautions to protect themselves from exposure to these toxins, such as wearing protective equipment like lead aprons and gloves, working in well-ventilated areas, and using less toxic materials and alternatives whenever possible. They should also follow proper safety protocols when working with radiation and contrast agents, and dispose of hazardous waste materials according to regulations.

Question 14

Radiotoxicity

Answer 14

• Radiotoxicity is the study of the harmful effects of ionizing radiation on living organisms.
• Ionizing radiation can cause damage to DNA, proteins, and other cellular components, leading to a range of health effects, including cancer, genetic mutations, and radiation sickness.
• Radiotoxicity is an important area of study in toxicology as it helps to assess the potential health risks associated with exposure to ionizing radiation.
• Sources:
• Environmental include: geological samples, building and inhaled radon.
• Artificial include: flights, weapons, medical X-ray and nuclear power plants.

Question 15

Types of ionizing radiation

Answer 15

• There are three types of ionizing radiation: alpha particles, beta particles, and gamma rays.
• Alpha particles are the least penetrating and can be stopped by a sheet of paper or the outer layer of skin. However, they can cause significant damage if inhaled or ingested.
• Beta particles are more penetrating than alpha particles and can penetrate through skin and clothing. They can also cause damage if inhaled or ingested.
• Gamma rays are the most penetrating and can pass through thick layers of concrete and steel. They can cause damage if exposure is prolonged or if large doses are received.

Question 16

Health effects of ionizing radiation

Answer 16

• The health effects of ionizing radiation depend on the dose, duration, and type of radiation.
• Acute exposure to high doses of ionizing radiation can cause radiation sickness, which includes symptoms such as nausea,
  vomiting, diarrhea, and skin burns.
• Chronic exposure to low doses of ionizing radiation can increase the risk of cancer and genetic mutations.
• Fetuses and children are more sensitive to the harmful effects of ionizing radiation than adults.

Question 17

Detection and Measurement Devices of radiation

Answer 17

• Radiation is measured in units of absorbed dose (is a measure of the amount of energy absorbed per unit mass of tissue), dose equivalent (is a measure of the biological effect of radiation on living tissue), and activity (is a measure of the number of radioactive decays occurring per unit time).
• The units used depend on the type of radiation and the purpose of the measurement.
• There are a variety of devices used to detect and measure radiation, including Geiger counters, scintillation detectors, and ionization chambers.
• These devices work by detecting the ionizing particles or photons produced by the radiation.
• The output of the detector is converted into a measure of absorbed dose or activity using calibration factors specific to the type of radiation and the detector.

Question 18

Geiger Counters

Answer 18

A Geiger counter is a portable device used to
detect ionizing radiation. It consists of a gas-filled chamber and a voltage source that creates an electric field. When ionizing
radiation enters the chamber, it ionizes the gas, creating a pulse of electrical current that is detected and amplified by the device. Geiger counters are commonly used for radiation monitoring in a variety of settings, including nuclear power plants, medical facilities, and environmental monitoring.

Question 19

Scintillation Detectors

Answer 19

A scintillation detector is a device used
to detect ionizing radiation by measuring the light produced when the radiation interacts with a scintillating material. The scintillating material emits light in response to the radiation, which is detected by a photomultiplier tube or other light-
sensitive device. Scintillation detectors are often used in medical imaging, such as PET and SPECT scans, as well as in environmental monitoring and nuclear physics research.

Question 20

Ionization Chambers

Answer 20

An ionization chamber is a device used to
measure ionizing radiation by detecting the amount of ionization it produces in a gas-filled chamber. The chamber contains two electrodes, and a voltage is applied across them to create an electric field. When ionizing radiation enters the chamber, it ionizes the gas, creating a current between the
electrodes. The current is proportional to the amount of ionization, which in turn is proportional to the amount of radiation detected. Ionization chambers are often used for dosimetry and radiation protection in medical and industrial settings.

Question 21

NORM

Answer 21

• Naturally Occurring Radioactive Material (NORM) refers to materials that contain radioactive elements in their natural state.
• These materials are present in the earth’s crust and can be found in soil, rocks, water, plants, and animals.
• NORM is not man-made or the result of human activities, but it can be concentrated or dispersed by industrial processes.

Types of NORM:
* The most common radioactive elements found in NORM are uranium, thorium, and potassium.
* Uranium and thorium are decay products of primordial radioactive isotopes that have been present since the earth was formed.
* Potassium-40 is a naturally occurring isotope that is present in all living organisms.

Question 22

NORM in Oil and gas production

Answer 22

NORM in Oil and Gas Production
* NORM can be present in subsurface formations that contain oil and gas.
* During oil and gas production, NORM can accumulate in pipes, tanks, and other equipment, posing a potential risk to workers and the environment.
* Proper management of NORM in the oil and gas industry includes monitoring, controlling, and disposing of NORM-containing materials according to established procedures and regulations.

Question 23

NORM in fertilizer production

Answer 23

NORM in Fertilizer Production
* Phosphate rocks used as raw materials in fertilizer production can contain radioactive
isotopes.
* During fertilizer production, NORM can accumulate in by-products and waste streams, posing a potential risk to workers and the environment.
* Proper management of NORM in fertilizer production includes monitoring, controlling,
and disposing of NORM-containing materials according to established procedures and
regulations.

Question 24

NORM in mineral mining processing

Answer 24

NORM in Mineral Mining and Processing
* Minerals such as phosphate, tin, and zircon contain naturally occurring radioactive isotopes.
* During mining and processing of these minerals, NORM can be exposed and accumulated in waste
streams, tailings, and other materials.
* Proper management of NORM in mineral mining and processing includes monitoring, controlling,
and disposing of NORM-containing materials according to established procedures and regulations.

Question 25

NORM in building materials

Answer 25

NORM in Building Materials
* Building materials such as concrete and bricks can contain small amounts of NORM, mainly from naturally occurring isotopes of uranium and thorium.
* The risk from NORM in building materials is generally low, but can be significant in certain
circumstances, such as in the construction of radioactive waste storage facilities.
* Proper management of NORM in building materials includes monitoring, controlling, and disposing of NORM-containing materials according to established procedures and regulations.

Question 26

Radiation effect on cells

Answer 26

*Direct effects
*Indirect effects
*Acute effects
*Chronic effects

Question 27

Direct effect

Answer 27

• Direct effects of radiation occur when ionizing radiation interacts with cellular components, such as DNA and proteins, directly causing damage.
• The main direct effect of radiation on cells is DNA damage, which can lead to mutations and cell death.

Question 28

Indirect effects

Answer 28

• Indirect effects of radiation occur when ionizing radiation interacts with water molecules in the cell, producing
  reactive oxygen species (ROS) that can cause damage to cellular components.
• Indirect effects of radiation can lead to oxidative stress, which can cause cell damage and death.

Question 29

Acute effects

Answer 29

• Acute effects of radiation occur when a large dose of radiation is received over a short period of time.
• Acute effects of radiation on cells can include cell death, tissue damage, and radiation sickness.

Question 30

Chronic Effects

Answer 30

• Chronic effects of radiation occur when a small dose of radiation is received over a long period of time.
• Chronic effects of radiation on cells can include DNA damage, mutations, and an increased risk of cancer.

Question 31

Radiation protection

Answer 31

Radiation protection is the practice of minimizing exposure to ionizing radiation in order to reduce the risks of radiation-related health effects.

Principles of Radiation Protection:
* The three basic principles of radiation protection are time, distance, and shielding.
* Minimizing the time spent in areas with radiation, increasing the distance from the radiation source, and using appropriate shielding materials can all help reduce exposure to ionizing radiation.

Dose limit:
* Radiation dose limits are set to ensure that the risks of radiation-related health effects are kept within acceptable levels.
* Different organizations have established dose limits for different populations and situations, such as occupational workers, the public, and emergency situations.
* Health and Safety Executive (HSE), Public Health England (PHE), Scottish Environment Protection Agency (SEPA), Northern Ireland Environment Agency (NIEA), International Commission on Radiological Protection (ICRP),
International Atomic Energy Agency (IAEA), National Council on Radiation Protection and Measurements (NCRP), Nuclear Regulatory Commission (NRC), etc

Question 32

Chernobyl Disaster

Answer 32

In 1986, a nuclear reactor at the Chernobyl Nuclear Power Plant in Ukraine exploded, releasing large amounts of radioactive material into the environment. The explosion and resulting fire killed 2 workers and caused acute radiation sickness in 134 other workers. The disaster also caused long-term health effects in the surrounding population, including increased rates of cancer, birth defects, and thyroid disease.

Question 33

Hiroshima and Nagasaki Atomic Bombings

Answer 33

In 1945, the United States dropped atomic bombs on the Japanese cities of Hiroshima and Nagasaki, resulting in immediate deaths of an estimated 140,000 people. Many survivors suffered from acute radiation sickness and developed long-term health effects, including increased rates of cancer, cataracts, and other diseases. These bombings were the first and only use of nuclear weapons in warfare.