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What else can I help you with?
How is plumbing in single storied building done?
Same as any other building
How much electricity or power can 1 gallon of water falling 10 feet generate?
One gallon of power is approximately 8.3 pounds, so the energy released, when 1 gallon of water falls 10 feet, is 83 foot-pounds, which is equal to 0.31 watt-hrs. If this energy were mechanically converted to electrical energy, approximately 40% losses would occur in converting the falling water into rotational, mechanical energy by a Pelton wheel or other water impeller, and about a 5% loss in conversion of rotational energy to electrical energy by a generator. So the extracted energy would be about 50%. Of that 0.31 watt-hours of energy, about 0.15 watt-hours would be delivered in the form of electrical energy, and the other 0.15 watt-hours would be lost in the form of heat.
What kind of engineers work with solar energy?
Engineers who focus on solar energy can have title of Solar Energy Systems Engineer or Solar Energy Engineer. Solar Energy Engineers may also be known as Photovoltaic Engineers. Typically, a Bachelorâ??s degree focused on Mechanical Engineering, Electrical Engineering, Industrial Engineering, or other types of Engineering is required to obtain a position as an Engineer specializing in solar energy. Additional and more specialized licenses and training may also be required from employers for the field of solar energy engineering.
What other invention contributed to the building of skyscrapers?
elevators
What are the main roles and responsibilities of an plumber?
Plumbers are responsible for installing, repairing, and maintaining plumbing systems, which include pipes, fixtures, and appliances that manage water and waste. They ensure that systems comply with local building codes and regulations, troubleshoot issues, and perform routine maintenance to prevent problems. Additionally, plumbers often read blueprints and collaborate with other construction professionals to ensure proper installation and function of plumbing systems in residential, commercial, and industrial settings.
What is SBEM calculations?
SBEM Calculations or Simplified Building Energy Model Calculations, Are a set of calculations a Building Operater would make to calculate energy useage and sustainability data for the building. Here is a quick summary of some of the calculations. 1. Lighting energy requirements on a standardized basis which takes into account glazinfg area, shading, light source, and Lighting Control systems. 2. Establishes the standardised heat and moisture gains in each activity area of a building. 3. alculates heat energy flows between each activity area inside and outside enviroment, where they are adjacent to each other. 4. Applies HVAC system efficiences to determine the delivered energy requirements to maintain thermal conditions. 5. Calculates the delivered energy by source and converts it into equivalent Co2 emissions. Basically your calculating how much energy your building should be using.
How does architecture affect energy consumtion?
The design and layout of buildings has a significant influence on the energy consumption for both the construction and the use of the building. Decisions regarding materials and methods of construction will affect how much embodied energy is incorporated into the building. The layout of the spaces within the building, the orientation of the building, the location of windows or other openings, the installed systems (such as heating) and the levels of insulation will affect the energy consumption of the building in use.
What is cooling energy?
Cooling energy refers to the energy required to lower the temperature of a space, such as a building or room, to a comfortable level. This energy is typically used to power air conditioning systems or other cooling devices in order to maintain a desired indoor temperature.
How does energy systems relate to other systems?
The second law of thermodynamics states that
Where do open and closed systems get energy?
Open systems get energy from external sources, such as the environment or other systems, while closed systems do not exchange energy with their surroundings and thus the energy within the system remains constant.
How does the thyroid work with other systems to keep the body healthy?
How does it work with other systems. It makes harmones and energy.
Why is electricity also called and energy carrier?
Electricity is called an energy carrier because it can be easily generated and transported to where it is needed. It does not exist freely in nature and must be converted from other forms of energy, such as chemical, mechanical, or thermal energy. Once generated, electricity can be delivered through power lines to power various devices and systems, making it a versatile and convenient form of energy.
How the systems affects other body systems respiratory systems?
It effects the digestive system because oxygen releases energy from glucose
How does renewable energy get to houses?
In the same way other energy does. Renewable electricity is completely identical to standard electricity, both consists of electrons. Renewable energy in other carriers than electricity (such as bio gas or bio fuel) can be delivered the same way as conventional gas or fuel. Residential rooftop solar systems works in a slightly different way - in this case you produce the energy on site, and from there you might either consume the energy on site, or transport it to other consumers through the normal grid.
How other systems affect the respiratory systems?
It effects the digestive system because oxygen releases energy from glucose
How does the body systems interrelate with each other?
Our body systems work together in several ways. for example if a person is exercising their somatic nervous system will tell the skeletal muscles to start working. the working muscles will demand energy . the energy will be produced by ATP in the cells. the cardiovascular system will have delivered oxygen and glucose to the cells where ATP is produced. hope u find this quite useful. good luck!!!
What are the effects of wind and air pressure on the empire state building?
The Empire State Building, like other tall structures, is significantly affected by wind and air pressure. Wind can create lateral forces that challenge the building's stability, necessitating a design that incorporates flexible systems to absorb and dissipate these forces. Changes in air pressure can also influence the building's ventilation and heating systems, impacting energy efficiency. Overall, the engineering of the Empire State Building accounts for these environmental factors to ensure safety and functionality.
