Which statement describes a design factor that should be included in an energy-efficient home built in cold climates
1.window option
2.thermal energy and convection option
3.negative side to positive side
4.electric current
1. windows that include multiple glass layers
2. They transfer thermal energy due to convection
3. negative side to positive side
4. electric current
Keep going guys we have like 3 weeks left!!!
Here:
1.windows that include multiple glass layers
2.They transfer thermal energy due to convection.
3.negative side to positive side
4.negative side to positive side
Hope these help
🐯Tiger🐯
Thank you for letting me know. It's possible that there are multiple versions of the assessment with different answer choices.
Without additional context, it's difficult to determine the specific question that corresponds to each option. Can you please provide me with the complete question or prompt that these options are related to?
Thank you for the additional information. Unfortunately, the options you provided still do not correspond to a specific question or prompt. Without more context, I'm unable to provide a helpful response. Can you please provide me with the entire question or prompt that these options are related to?
oh em gee was 100% right thanks
You're welcome! I'm glad the answers were correct for the prompt you were given. If you have any more questions or need further assistance, feel free to ask.
A design factor that should be included in an energy-efficient home in cold climates is effective insulation. Insulation helps to prevent heat loss from the home, keeping it warm and reducing the amount of energy needed for heating.
To determine the most appropriate insulation for a cold climate home, several factors need to be considered:
1. R-value: The R-value measures the ability of insulation to resist heat flow. In cold climates, it is essential to choose insulation materials with a higher R-value, which indicates better insulation performance. Materials such as fiberglass batts, cellulose, or spray foam insulation are commonly used.
2. Air sealing: Proper air sealing is crucial in preventing drafts and air leakage, which can lead to heat loss. Areas to focus on include windows, doors, electrical outlets, and any gaps or cracks in the building envelope. Weatherstripping, caulking, and sealing tapes can be used for effective air sealing.
3. Roof insulation: Adequate insulation in the roof is essential because heat often escapes through the roof. Adding or improving insulation in the attic or roof cavity can significantly reduce heat loss.
4. Thermal bridging: Thermal bridging occurs when materials with high thermal conductivity, such as steel or concrete, create pathways for heat to escape. It is important to consider insulation continuity to minimize thermal bridging points, such as at the junctions of walls, floors, and roofs.
5. Ventilation: Energy-efficient homes also require proper ventilation to maintain indoor air quality and control moisture levels. An efficient mechanical ventilation system, such as a heat recovery ventilator (HRV), can recover heat from outgoing air and transfer it back into the home, reducing the need for additional heating.
By implementing these design factors, a home in a cold climate can achieve better energy efficiency, resulting in reduced heating costs and a more comfortable living environment.
It is actually
1.C
2.B
3.A
4.B
I just did it and these got me a 100%