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Christopher Columbus newly landed from his flagship Santa Maria on October 12, 1492. @uscapitolhttps://t.co/fXnp0Z70uM
“The Worlds of Christopher Columbus”@CambridgeUPhttps://t.co/gIOmEa6cKI pic.twitter.com/YONYxop1MW

— Standards Michigan (@StandardsMich) October 11, 2021

https://standardsmichigan.com/90-second-lecture-was-christopher-columbus-a-genius-or-was-he-just-lucky/

https://x.com/DalhousieU/status/1845808086688116908/photo/1

lorem

https://youtu.be/j3ULtvhlQfc?si=oBhS62L923yc4z5n

https://standardsmichigan.com/wires/

Swiss inception 🧀 🇨🇭:The Country of Switzerland (Schweiz) vs the Canton of Schwyz vs the District of Schwyz vs the Municipality of Schwyz. OR: The Schwyz in the Schwyz in the Schwyz in the Schweiz. Source: https://t.co/qdX34QX3NY pic.twitter.com/NCazjiFUBr

— Simon Kuestenmacher (@simongerman600) January 1, 2021

“Own only what you can always carry with you: know languages, know countries, know people.

Let your memory be your travel bag.”

— Aleksandr Solzhenitsyn (From “The Gulag Archipelago”)

Today we explain our collaboration with other education settlements in the US and other nations.  We conform to participation requirements set by ANSI US Technical Advisory Groups to the International Organization for Standardization but we also have liaison with other universities in the European Union who conform to the participation requirements of their own national standards bodies.

Use the login credentials at the upper right of our home page.  Because a great deal of content is copyright protected by the International Electrotechnical Commission, International Organization for Standardization and International Telecommunications Union.

🎉 Today, CEN and CENELEC Technical Boards gathered to review progress, tackle opportunities, and mark World Standards Day! 🌟#WSD2025 #TrustStandards pic.twitter.com/c8V02JPpbo

— CEN and CENELEC (@Standards4EU) October 14, 2025

Happy #WorldStandardsDay! 🎉

Standards connect people, systems and nations — building trust through quality.

This year we focus on SDG 17: Partnerships for the Goals 🤝🌎

Together, we raise standards for a better world.#BSJ #WorldStandardsDay2025 #StandardsInAction #SDG17 pic.twitter.com/vWKHGW75p4

— Bureau of Standards (@StandardsJa) October 14, 2025

New Modern Methods of Construction Toolkit from the NSAI!

For helpful guides, practical resources and free tools, access NSAI’s #MMC toolkit for the Irish construction industry at https://t.co/X8zPrOoSaw

In support of the government’s Housing for All strategy, the goal of… pic.twitter.com/Oyyt3LOq6z

— NSAI (@NSAI_Standards) June 26, 2025

https://standardsmichigan.com/international-standards-teleconference-today-11-am-eastern/

17 equations that changed the world pic.twitter.com/69jV97p8mM

— Massimo (@Rainmaker1973) December 21, 2024

https://standardsmichigan.com/iso-tc-309/

https://standardsmichigan.com/itu-academia/

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https://standardsmichigan.com/time-frequency-services/

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https://standardsmichigan.com/readability-of-design-standards/

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Radon

Chemical and gas hazards in school buildings can pose significant risks to students, staff, and visitors. Below is a list of common chemical and gas hazards found in school environments, based on information from sources like the CDC, EPA, and other safety resources:Chemical HazardsCleaning Supplies and Disinfectants Examples: Bleach, ammonia, quaternary ammonium compounds, floor strippers, and degreasers.
Risks: Skin irritation, respiratory issues, eye damage, or toxic reactions if mixed (e.g., bleach and ammonia creating chlorine gas).
Location: Custodial closets, classrooms, restrooms, and kitchens.

Laboratory Chemicals Examples: Acids (e.g., hydrochloric acid), bases (e.g., sodium hydroxide), solvents (e.g., ethanol, acetone), and reagents used in science labs.
Risks: Burns, poisoning, fires, or explosions if mishandled or improperly stored.
Location: Science laboratories and storage rooms.

Art Supplies Examples: Paints, glues, solvents, dyes, and aerosols containing volatile organic compounds (VOCs).
Risks: Inhalation of fumes, skin contact irritation, or long-term exposure effects.
Location: Art classrooms and studios.

Pesticides and Herbicides Examples: Insecticides, rodenticides, and weed killers used for pest control or grounds maintenance.
Risks: Toxicity, allergic reactions, or environmental contamination.
Location: Groundskeeping storage, cafeterias, or applied areas like athletic fields.

Asbestos Description: Found in older school buildings (pre-1980s) in insulation, floor tiles, or ceiling materials.
Risks: Inhalation of fibers can cause lung diseases, including mesothelioma.
Location: Older building materials, often disturbed during renovations.

Lead Description: Present in old paint (pre-1978) or plumbing systems.
Risks: Neurological damage, developmental issues, especially in young children.
Location: Painted surfaces, water pipes, or solder in older buildings.

Formaldehyde Description: Found in pressed wood furniture, carpets, or preserved specimens in biology labs.
Risks: Respiratory irritation, potential carcinogen with long-term exposure.
Location: Classrooms, labs, or new furniture installations.

Mercury Description: Found in old thermometers, barometers, or fluorescent bulbs.
Risks: Toxic if spilled or inhaled, causing neurological and kidney damage.
Location: Science labs, storage rooms, or maintenance areas.

Gas HazardsCarbon Monoxide (CO) Source: Malfunctioning heating systems, gas-powered equipment, or vehicle exhaust near air intakes.
Risks: Poisoning, leading to headaches, dizziness, or death in high concentrations.
Location: Boiler rooms, kitchens, or poorly ventilated areas.

Carbon Dioxide (CO2) Source: Overcrowded or poorly ventilated classrooms, or dry ice used in experiments.
Risks: Drowsiness, difficulty breathing, or asphyxiation in extreme cases.
Location: Classrooms, labs, or confined spaces.

Natural Gas Source: Leaks from gas lines, heaters, or appliances in kitchens or labs.
Risks: Fire, explosion, or asphyxiation.
Location: Kitchens, science labs, or mechanical rooms.

Radon Description: A naturally occurring radioactive gas that can seep into buildings from the ground.
Risks: Long-term exposure increases lung cancer risk.
Location: Basements or ground-floor rooms in areas with high radon levels.

Volatile Organic Compounds (VOCs) Source: Paints, adhesives, cleaning products, or new furnishings.
Risks: Eye, nose, and throat irritation, headaches, or long-term health effects.
Location: Newly renovated areas, art rooms, or custodial storage.

Chlorine Gas Source: Accidental mixing of cleaning chemicals (e.g., bleach and ammonia) or pool maintenance chemicals.
Risks: Severe respiratory irritation or poisoning.
Location: Custodial areas, swimming pools, or science labs.

Nitrogen Oxides (NOx) Source: Combustion from heating systems or nearby vehicle emissions.
Risks: Respiratory irritation or aggravation of asthma.
Location: Near HVAC systems or urban school locations.

Mitigation StrategiesVentilation: Ensure proper HVAC systems and regular maintenance to reduce gas buildup.
Storage: Store chemicals in locked, well-ventilated areas with proper labeling.
Training: Educate staff and students on safe handling and emergency procedures.
Monitoring: Use CO detectors, radon testing, and air quality monitors.
Maintenance: Regularly inspect and update old building materials (e.g., asbestos, lead).
Regulations: Follow OSHA, EPA, and local guidelines for chemical and gas safety.

“A machine, to be economical, should be capable of being worked at any time,

day or night, summer and winter, with trifling exception.”

— Thomas Tredgold (1882 “Practical Essay on the Strength of Cast Iron and Other Metals“)

Today we scan of redlines of titles open for public consultation in the mechanical engineering domain as it is understood in building construction disciplines.   After architectural elements, mechanical systems in new building construction encompass a variety of components and technologies that are designed to ensure the comfort, safety, and functionality of the building’s occupants. These systems are crucial for maintaining indoor environmental conditions, such as temperature, humidity, and air quality. Here are some key mechanical system elements commonly found in new building construction:

1. HVAC (Heating, Ventilation, and Air Conditioning):
   • Heating: Furnaces, boilers, heat pumps, or electric heaters are used to provide warmth in cold seasons.
   • Ventilation: Systems that circulate fresh air, remove indoor pollutants, and regulate humidity.
   • Air Conditioning: Cooling systems, such as central air conditioners or ductless mini-split units, maintain comfortable temperatures during hot weather.
2. Ductwork: A network of ducts and pipes used to distribute heated or cooled air throughout the building. These ducts also serve to facilitate ventilation and air filtration.
3. Plumbing Systems: Water supply and wastewater removal systems, including pipes, fixtures, pumps, and water heaters for hot water supply.
4. Elevators and Escalators: Vertical transportation systems that move people and goods between different floors of the building.
5. Noise Control: Sound insulation and acoustic design are essential for ensuring a comfortable and quiet indoor environment, especially in commercial or multi-family residential buildings.
6. Building Automation and Smart Technologies: Integration of smart devices and sensors for energy management, security, and convenience, including lighting, blinds, and security systems.  These are computer-based systems that monitor and control various building systems, including HVAC, lighting, security, and access control, to optimize energy usage and maintain comfort.
7. Plumbing and Sanitary Systems: Sanitary systems manage wastewater disposal and sewage, while plumbing systems provide clean water for domestic use.
8. Environmental Controls: Systems for managing indoor air quality, including air purification, humidity control, and pollutant filtration.

These mechanical system elements work in conjunction to create a comfortable, safe, and energy-efficient building environment. The design and integration of these systems are critical to the overall functionality and sustainability of modern building projects. 

Many of the characteristics listed above are covered in separate colloquia.  Use the login credentials at the upper right of our homepage. 

Related:

https://standardsmichigan.com/mechanical-engineering-monthly/

The IT Law Wiki: Spectrum Allocation

https://standardsmichigan.com/radio-300/

HAM operators are priceless during a disaster. Listen! pic.twitter.com/pQDv1K29ID

— Jessica Rojas 🇺🇸💪 (@catsscareme2021) October 6, 2024

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