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What energy source is available all the time?
Renewable energy sources like solar, wind, and hydroelectric power are available all the time because they rely on natural processes that are consistently occurring, such as sunlight, wind, and water flow. These sources provide a continuous and sustainable supply of energy.
What is energy supply?
Energy supply refers to the availability and distribution of energy sources such as electricity, natural gas, and renewables for various industries and households. It encompasses the infrastructure needed for generating, transmitting, and delivering energy to meet the demand of consumers. Ensuring a stable and sustainable energy supply is crucial for economic development and the well-being of communities.
What is energy sources that are in limited supply?
Fossil fuels like oil, natural gas, and coal are examples of energy sources that are in limited supply. These sources take millions of years to form and are being depleted at a much faster rate than they can be replenished naturally.
How does nature supply energy?
Nature supplies energy through various processes such as photosynthesis, where plants convert sunlight into chemical energy, and cellular respiration, where organisms break down organic molecules to release energy. Additionally, geothermal processes, wind, and water cycles also contribute to the overall energy balance in nature.
What provides stored energy supply in fat droplets in cytoplasm?
Triglycerides provide stored energy supply in fat droplets in the cytoplasm. Triglycerides are composed of three fatty acid chains attached to a glycerol molecule and serve as a concentrated form of energy that can be broken down through metabolism to produce ATP for cellular processes.
If the nitrogen and oxygen were not replaced in the atmosphere how long would the present supply of gases last?
The current supply of nitrogen and oxygen in Earth's atmosphere would last indefinitely as these gases are continuously recycled through natural processes like photosynthesis, respiration, and nitrogen fixation. These processes ensure a stable balance of gases in the atmosphere.
If the Nitrogen and Oxygen were not replaced in the atmosphere how long would our present supply of these gases last?
If nitrogen and oxygen in the atmosphere were not replenished, they would last a very long time due to their stability and abundance. Nitrogen makes up about 78% of the atmosphere, while oxygen constitutes about 21%. The primary sources of oxygen, such as photosynthesis from plants, are crucial for its continuous supply; without these processes, oxygen levels would gradually decrease over centuries. However, nitrogen is inert and doesn't get consumed in significant amounts, meaning it could theoretically last indefinitely without replacements.
Why did god made nitrogen more aboundant than oxygen in the atmosphere?
Because Nitrogen makes plants grow and they provide a continuous supply of oxygen!
If the nitrogen and oxygen were not replaced in the atmosphere how long would your present supply of gases would last?
The Earth's atmosphere is a dynamic system, continuously exchanging gases with various sources. If nitrogen and oxygen were not replenished, the atmosphere's composition would gradually change due to processes like photosynthesis and chemical reactions. The exact time it would take for the supply to deplete completely would depend on various factors such as the rate of consumption and interactions with other Earth systems.
Why must farmers constantly and nitrogen when this element recycles naturally?
Farmers need to constantly add nitrogen to their fields because crops remove nitrogen from the soil as they grow. While nitrogen does cycle naturally through processes like nitrogen fixation and decomposition, the rate at which crops deplete nitrogen often outpaces natural recycling, leading to nutrient depletion in the soil. By adding nitrogen through fertilizers, farmers ensure that their crops have an adequate supply for optimal growth.
Why is oxygen a common reactant?
There is a large supply of oxygen in Earth's natural atmosphere, and oxygen is a strongly electronegative element.
What is the oxygen supply on the moon?
The moon has a very thin atmosphere with no oxygen. Therefore, there is no natural oxygen supply on the moon. Humans would need to bring their own oxygen supply if they were to visit or live on the moon.
How nitrogen can make up almost 80 percent of the atmosphere and still limit plant growth?
The reason nitrogen is abundant in the atmosphere yet limits plant growth is that plants cannot make use of elemental nitrogen. The bond between the nitrogen atoms in elemental nitrogen (which is a diatomic gas) is very strong and not easily broken. Therefore, plants must rely on bacteria in order to fix the nitrogen (convert it into a usable form).
How do hormones in the water supply impact fertility rates?
Hormones in the water supply can disrupt the body's natural hormone balance, potentially affecting fertility rates by interfering with reproductive processes.
When disaster hits why does the cost of food and gas go up supply and demand?
There is no way supply and demand affect disasters, they are natural things in nature while supply and demand are economic processes. Disasters can easily decrease the supply of something, which increases the price on that good.
Which is not true of lipids?
they supply cells with nitrogen
What is the process of changing atmospheric nitrogen into forms that plants can use is what?
The conversion of nitrogen (N2) from the atmosphere into a form readily available to plants and hence to animals is an important step in the nitrogen cycle, which distributes the supply of this essential nutrient. There are four ways to convert N2 (atmospheric nitrogen gas) into more chemically reactive forms:[5]Biological fixation: some symbiotic bacteria (most often associated with leguminous plants) and some free-living bacteria are able to fix nitrogen as organic nitrogen. An example of mutualistic nitrogen fixing bacteria are the Rhizobiumbacteria, which live in legume root nodules. These species are diazotrophs. An example of the free-living bacteria is Azotobacter.Industrial N-fixation: Under great pressure, at a temperature of 600 C, and with the use of an iron catalyst, hydrogen (usually derived from natural gas or petroleum) and atmospheric nitrogen can be combined to form ammonia (NH3) in the Haber-Bosch process which is used to make fertilizer and explosives.Combustion of fossil fuels: automobile engines and thermal power plants, which release various nitrogen oxides (NOx).Other processes: In addition, the formation of NO from N2 and O2 due to photons and especially lightning, can fix nitrogen.
