A) Leadership in Energy and Environmental Design B) Liveable Environment and Energy Deployment C) Low-Energy Environmental Design D) Local Environmental Energy Development
A) Increase reliance on artificial lighting B) Minimize outdoor views C) Create a dark and gloomy atmosphere D) Maximize natural light and reduce energy consumption
A) Promote allergic reactions B) Improve indoor air quality C) Increase energy consumption D) Enhance acoustics in the building
A) Encourage overconsumption of resources B) Increase project costs C) Speed up project completion D) Reduce environmental impact and landfill usage
A) Increase greenhouse gas emissions B) Raise construction costs C) Promote deforestation D) Reduce resource extraction and waste
A) Promote global shipping emissions B) Enhance faraway ecosystems C) Increase material cost D) Reduce transportation energy and support the local economy
A) Encourage energy-hungry buildings B) Promote wasteful construction methods C) Ignore sustainable practices D) Set standards and recognize buildings that meet environmentally friendly criteria
A) Optimize energy use and enhance building performance B) Decrease efficiency of systems C) Promote reliance on fossil fuels D) Increase energy waste
A) Energy consumed by occupants B) Energy generated on-site C) Total energy required to extract, process, transport, and install building materials D) Energy used for artificial lighting
A) Diminish natural light access B) Optimize natural lighting, heating, and cooling efficiency C) Increase energy consumption D) Create excessive heat indoors
A) Promote inflexible building structures B) Create a construction bottleneck C) Allowing for future changes and reducing renovation needs D) Deprioritize occupant comfort
A) Vinyl chloride B) Plastic derived from fossil fuels C) Non-renewable coal D) Bamboo |