how can I tell is something or a practise is sustainable or not? how can this assessment be provided as a simple measure?

Assessing whether something or a practice is sustainable or not can be challenging, as it requires taking into account a range of environmental, social, and economic factors. However, there are some general principles that can be used to guide the assessment process, and some simple measures that can be used to provide an initial indication of sustainability.

Life Cycle Assessment (LCA): Life cycle assessment is a methodology that can be used to assess the environmental impact of a product or process across its entire life cycle, from raw material extraction to end-of-life disposal. LCA takes into account factors such as energy use, greenhouse gas emissions, and resource depletion, and provides a comprehensive picture of the environmental impact of a product or process. While LCA is a more complex method, it provides a more complete understanding of sustainability.

Carbon Footprint: Carbon footprint is a simple measure that can provide an indication of the greenhouse gas emissions associated with a product or process. Carbon footprint takes into account factors such as energy use, transportation, and waste generation, and provides a simple way to compare the environmental impact of different products or practices. Carbon footprint calculators are available online and can be used to estimate the carbon footprint of a product or activity.

Social Impact Assessment: Social impact assessment is a methodology that can be used to assess the social impact of a product or process on local communities. Social impact assessment takes into account factors such as human rights, labor practices, and community development, and provides a comprehensive picture of the social impact of a product or process.

Economic Analysis: Economic analysis can be used to assess the economic sustainability of a product or process. This involves taking into account factors such as resource use, labor costs, and market demand, and assessing whether the product or process is financially viable in the long term.

In summary, assessing sustainability requires taking into account a range of environmental, social, and economic factors. While more complex methods such as life cycle assessment and social impact assessment provide a more complete picture of sustainability, simpler measures such as carbon footprint and economic analysis can be used as an initial indication of sustainability.

if I was designing a sustainable human settlement how big should the houses be and what would basic services look like - for example electricity, toilets, cooking, hot water?

Designing a sustainable human settlement involves balancing the needs of the residents with the available resources and minimizing the impact on the environment. The size of the houses and the basic services will depend on the specific context of the settlement, such as the local climate, available resources, and cultural preferences. However, here are some general guidelines that could be considered:

House Size: Houses in a sustainable human settlement should be designed to meet the needs of the residents while minimizing their environmental impact. They should be designed to use resources efficiently and incorporate sustainable features such as passive solar design, natural ventilation, and efficient insulation. The size of the houses can vary, but a good guideline is to keep them as small as possible while still meeting the needs of the residents. This can help reduce material and energy use and make the houses more affordable.

Electricity: Electricity should be generated from renewable sources such as solar, wind, or hydroelectric power. The settlement could have a centralized energy system or rely on distributed energy systems such as rooftop solar panels. Residents could also be encouraged to use energy-efficient appliances and lighting to reduce their electricity use.

Toilets: Toilets in a sustainable human settlement should be designed to minimize water use and reduce pollution. Options could include composting toilets or low-flush toilets that use recycled water. The settlement could also have a centralized wastewater treatment system to treat the wastewater and reuse it for irrigation or other purposes.

Cooking: Cooking in a sustainable human settlement could be done using renewable sources of energy such as solar cookers or biomass stoves that use sustainably harvested wood or agricultural waste. Residents could also be encouraged to use energy-efficient cooking methods such as pressure cooking or slow cooking to reduce energy use.

Hot Water: Hot water in a sustainable human settlement could be generated using solar water heaters or heat pumps that use renewable energy sources. Water use could be minimized by using low-flow showerheads and faucets, and residents could be encouraged to take shorter showers and wash clothes in cold water.

In summary, a sustainable human settlement should prioritize resource efficiency, renewable energy sources, and minimize environmental impact. House sizes should be kept small, and basic services should be designed to use resources efficiently and reduce pollution. The specific design and implementation of these services will depend on the context of the settlement and the needs of the residents.