Pollution and depreciation of resources
Pollution and depreciation of resources
All living things produce metabolic waste. In animals and humans the waste material for this is in the form of gas, feces and urine, a very common gas formed is CO2 which enters the air and does not cause problems due to its low levels. Other gases that often form are H2S that smell bad and are formed in the process of decomposing organic matter, for example at the time of decomposition of waste. The gas is a pollutant that is found in many places.
Waste material is generally called waste. Waste from households is often called domestic waste. Waste from restaurants and hotels, because it resembles household waste, is often called domestic waste.
Waste, especially domestic waste, is actually also food for certain organisms, for example, CO2 is a staple for photosynthesis of green plants. From CO2 gas and H2O water, sugar and O2 are formed. O2 gas we need for our breathing. So nature, in this case plants, from CO2 gas and H2O water, sugar and O2 are formed. We need O2 gas for our breathing. So nature, in this case green plants, purifies the air by treating CO2 and producing O2. Hazardous transport by transport is Co gas, n and s oxides, and lead. Measurements in several places, including Jakarta, Bandung and Denpasar, show that CO2 pollution has reached a high level
The greater the population, the greater the need for resources. for an agrarian population the increasing need for resources is mainly land and water. with the development of technology and economy, using other resources will also increase, namely fuel and raw materials for industry. with the increasing need for resources, there was a depreciation of resources. Depreciation of resources is closely related to pollution. the greater the use of resources, the greater the shrinkage rate and generally the greater the pollution.
Depreciation of resources can also be reduced by using resources. more efficiently, both in the industry and in our daily lives. In Japan, for example, the rate of economic growth is greater than the rate of growth of energy consumption. So the rate of economic growth is not proportional to the rate of energy consumption.
All living things produce metabolic waste. In animals and humans the waste material for this is in the form of gas, feces and urine, a very common gas formed is CO2 which enters the air and does not cause problems due to its low levels. Other gases that often form are H2S that smell bad and are formed in the process of decomposing organic matter, for example at the time of decomposition of waste. The gas is a pollutant that is found in many places.
Waste material is generally called waste. Waste from households is often called domestic waste. Waste from restaurants and hotels, because it resembles household waste, is often called domestic waste.
Waste, especially domestic waste, is actually also food for certain organisms, for example, CO2 is a staple for photosynthesis of green plants. From CO2 gas and H2O water, sugar and O2 are formed. O2 gas we need for our breathing. So nature, in this case plants, from CO2 gas and H2O water, sugar and O2 are formed. We need O2 gas for our breathing. So nature, in this case green plants, purifies the air by treating CO2 and producing O2. Hazardous transport by transport is Co gas, n and s oxides, and lead. Measurements in several places, including Jakarta, Bandung and Denpasar, show that CO2 pollution has reached a high level
The greater the population, the greater the need for resources. for an agrarian population the increasing need for resources is mainly land and water. with the development of technology and economy, using other resources will also increase, namely fuel and raw materials for industry. with the increasing need for resources, there was a depreciation of resources. Depreciation of resources is closely related to pollution. the greater the use of resources, the greater the shrinkage rate and generally the greater the pollution.
Depreciation of resources can also be reduced by using resources. more efficiently, both in the industry and in our daily lives. In Japan, for example, the rate of economic growth is greater than the rate of growth of energy consumption. So the rate of economic growth is not proportional to the rate of energy consumption.
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