Cause and effect acid rain
What is Acid Rain?
Acid rain refers to a mixture of deposited material, both wet and dry, coming from the atmosphere containing more than normal amounts of nitric and sulfuric acids. Simply put, it means rain that is acidic in nature due to the presence of certain pollutants in the air due to cars and industrial processes. It is easily defined as rain, fog, sleet or snow that has been made acidic by pollutants in the air as a result of fossil fuel and industrial combustions that mostly emits Nitrogen Oxides (NOx) and Sulfur Dioxide (SO2). Acidity is determined on the basis of the pH level of the water droplets. Normal rain water is slightly acidic with a pH range of 5.3-6.0, because carbon dioxide and water present in the air react together to form carbonic acid, which is a weak acid. When the pH level of rain water falls below this range, it becomes acid rain.
When these gases react with water molecules and oxygen among other chemicals found in the atmosphere, mild acidic chemical compounds such as sulfuric and nitric acid are formed resulting to acid rain. Acid rain generally leads to weathering of buildings, corrosion of metals, and peeling of paints on surfaces. Erupting volcanoes contains some chemicals that can cause acid rain. Apart from this, burning of fossil fuels, running of factories and automobiles due to human activities are few other reasons behind this activity.
Atmospheric_Pollution_water_droplets
Presently, large amounts of acid deposition is witnessed in the southeastern Canada, northeastern United States and most of Europe, including portions of Sweden, Norway, and Germany. In addition, some amount of acid deposition is found in parts of South Asia, South Africa, Sri Lanka, and Southern India.
Forms of Acid Rain
There are two forms in which acid deposition occurs – wet and dry. Both are discussed below:
Wet Deposition: When the wind blows the acidic chemicals in the air to the areas where the weather is wet, the acids fall to the ground in the form of rain, sleet, fog, snow or mist. It removes acid from the atmosphere and deposit them on the earth’s surface. When this acid flows through the ground, it affects large number of plants, animals and aquatic life. The water from drain flows into rivers and canals which is them mixed up with sea water, thereby affecting marine habitats.
Dry Deposition: If the wind blows the acidic chemicals in the air to the areas where the weather is dry, the acidic pollutants slip into dust or smoke and fall to the ground as dry particles. These stick to the ground and other surfaces such as cars, houses, trees and buildings. Almost 50% of the acidic pollutants in the atmosphere fall back through dry deposition. These acidic pollutants can be washed away from earth surface by rainstorms.
It was discovered way back in 1800s during the Industrial Revolution. A Scottish chemist, Robert Angus Smith, was first to discover this phenomenon in 1852 as a relationship between acid rain and atmospheric pollution in Manchester, England. But it gained public attention mainly in 1960s. The term was coined in 1972 when the NY Times published reports about the climate change effects which started arising due to the occurrence of acid rain in the Hubbard Brook Experimental Forest in New Hampshire.
Causes of Acid Rain
Both natural and man-made sources are known to play a role in the formation of acid rain. But, it is mainly caused by combustion of fossil fuels which results in emissions of sulfur dioxide (SO2) and nitrogen oxides (NOx).
1. Natural Sources
The major natural causal agent for acid rain is volcanic emissions. Volcanoes emit acid producing gases to create higher than normal amounts of acid rain or any other form of precipitation such as fog and snow to an extent of affecting vegetation cover and health of residents within the surrounding. Decaying vegetation, wildfires and biological processes within the environment also generate the acid rain forming gases. Dimethly sulfide is a typical example of a major biological contributor to sulfur containing elements into the atmosphere. Lighting strikes also naturally produces nitric oxides that react with water molecules via electrical activity to produce nitric acid, thereby forming acid rain.
2. Man-made sources
Human activities leading to chemical gas emissions such as sulfur and nitrogen are the primary contributors to acid rain. The activities include air pollution sources emitting sulfur and nitrogen gases like factories, power generations facilities, and automobiles. In particular, use of coal for electrical power generation is the biggest contributor to gaseous emissions leading to acid rain. Automobiles and factories also release high scores of gaseous emissions on daily basis into the air, especially in highly industrialized areas and urban regions with large numbers of car traffic. These gases react in the atmosphere with water, oxygen, and other chemicals to form various acidic compounds such as sulfuric acid, ammonium nitrate, and nitric acid. As a result, these areas experience exceedingly high amounts of acid rain.
The existing winds blow these acidic compounds over large areas across borders and they fall back to the ground in the form of acid rain or other forms of precipitation. Upon reaching the earth, it flows across the surface, absorbs into the soil and enters into lakes and rivers and finally gets mixed up with sea water.
The gases i.e. i.e. sulfur dioxide (SO2) and nitrogen oxides (NOx) are primarily gases occurring from electric power generation by burning coal and responsible for acid rain.
Effects of Acid Rain
Acid rain has significant effects on the world environment and public health.
Effect on Aquatic Environment: Acid rain either falls directly on aquatic bodies or gets run off the forests, roads and fields to flow into streams, rivers and lakes. Over a period of time, acids get accumulated in the water and lower the overall pH of the water body. The aquatic plants and animals need a particular pH level of about 4.8 to survive. If the pH level falls below that the conditions become hostile for the survival of aquatic life. Acid rain tendency of altering pH and aluminum concentrations greatly affects pH concentration levels in surface water, thereby affecting fish as well as other aquatic life-forms. At pH levels below 5, most fish eggs cannot hatch. Lower pHs can also kill adult fish. Acid rain runoff from catchment areas into rivers and lakes has also reduced biodiversity as rivers and lakes become more acidic. Species including fish, plant and insect types in some lakes, rivers and brooks have been reduced and some even completely eliminated owing to excess acid rain flowing into the waters.
Effect on Forests: It makes trees vulnerable to disease, extreme weather, and insects by destroying their leaves, damaging the bark and arresting their growth. Forest damage due to acid rain is most evident in Eastern Europe – especially Germany, Poland and Switzerland.
Effect on Soil: Acid rain highly impacts on soil chemistry and biology. It means, soil microbes and biological activity as well as soil chemical compositions such as soil pH are damaged or reversed due to the effects of acid rain. The soil needs to maintain an optimum pH level for the continuity of biological activity. When acid rains seep into the soil, it means higher soil pH, which damages or reverses soil biological and chemical activities. Hence, sensitive soil microorganisms that cannot adapt to changes in pH are killed. High soil acidity also denatures enzymes for the soil microbes. On the same breadth, hydrogen ions of acid rain leach away vital minerals and nutrients such as calcium and magnesium.
Vegetation Cover and Plantations: The damaging effects of acid rain on soil and high levels of dry depositions have endlessly damaged high altitude forests and vegetation cover since they are mostly encircled by acidic fogs and clouds. Besides, the widespread effects of acid rain on ecological harmony have lead to stunted growth and even death of some forests and vegetation cover.
Effect on Architecture and Buildings: Acid rain on buildings, especially those constructed with limestone, react with the minerals and corrode them away. This leaves the building weak and susceptible to decay. Modern buildings, cars, airplanes, steel bridges and pipes are all affected by acid rain. Irreplaceable damage can be caused to the old heritage buildings.
Effect on Public Health: When in atmosphere, sulfur dioxide and nitrogen oxide gases and their particulate matter derivatives like sulfates and nitrates, degrades visibility and can cause accidents, leading to injuries and deaths. Human health is not directly affected by acid rain because acid rain water is too dilute to cause serious health problems. However, the dry depositions also known as gaseous particulates in the air which in this case are nitrogen oxides and sulfur dioxide can cause serious health problems when inhaled. Intensified levels of acid depositions in dry form in the air can cause lung and heart problems such as bronchitis and asthma.
Other Effects: Acid rain leads to weathering of buildings, corrosion of metals, and peeling of paints on surfaces. Buildings and structures made of marble and limestone are the ones especially damaged by acid rain due to the reactivity of the acids in the rain and the calcium compounds in the structures. The effects are commonly seen on statues, old grave stones, historic monuments, and damaged buildings. Acid rain also corrodes metals like steel, bronze, copper, and iron.
Deforestation_ForestDamage
Acid rain refers to a mixture of deposited material, both wet and dry, coming from the atmosphere containing more than normal amounts of nitric and sulfuric acids. Simply put, it means rain that is acidic in nature due to the presence of certain pollutants in the air due to cars and industrial processes. It is easily defined as rain, fog, sleet or snow that has been made acidic by pollutants in the air as a result of fossil fuel and industrial combustions that mostly emits Nitrogen Oxides (NOx) and Sulfur Dioxide (SO2). Acidity is determined on the basis of the pH level of the water droplets. Normal rain water is slightly acidic with a pH range of 5.3-6.0, because carbon dioxide and water present in the air react together to form carbonic acid, which is a weak acid. When the pH level of rain water falls below this range, it becomes acid rain.
When these gases react with water molecules and oxygen among other chemicals found in the atmosphere, mild acidic chemical compounds such as sulfuric and nitric acid are formed resulting to acid rain. Acid rain generally leads to weathering of buildings, corrosion of metals, and peeling of paints on surfaces. Erupting volcanoes contains some chemicals that can cause acid rain. Apart from this, burning of fossil fuels, running of factories and automobiles due to human activities are few other reasons behind this activity.
Atmospheric_Pollution_water_droplets
Presently, large amounts of acid deposition is witnessed in the southeastern Canada, northeastern United States and most of Europe, including portions of Sweden, Norway, and Germany. In addition, some amount of acid deposition is found in parts of South Asia, South Africa, Sri Lanka, and Southern India.
Forms of Acid Rain
There are two forms in which acid deposition occurs – wet and dry. Both are discussed below:
Wet Deposition: When the wind blows the acidic chemicals in the air to the areas where the weather is wet, the acids fall to the ground in the form of rain, sleet, fog, snow or mist. It removes acid from the atmosphere and deposit them on the earth’s surface. When this acid flows through the ground, it affects large number of plants, animals and aquatic life. The water from drain flows into rivers and canals which is them mixed up with sea water, thereby affecting marine habitats.
Dry Deposition: If the wind blows the acidic chemicals in the air to the areas where the weather is dry, the acidic pollutants slip into dust or smoke and fall to the ground as dry particles. These stick to the ground and other surfaces such as cars, houses, trees and buildings. Almost 50% of the acidic pollutants in the atmosphere fall back through dry deposition. These acidic pollutants can be washed away from earth surface by rainstorms.
It was discovered way back in 1800s during the Industrial Revolution. A Scottish chemist, Robert Angus Smith, was first to discover this phenomenon in 1852 as a relationship between acid rain and atmospheric pollution in Manchester, England. But it gained public attention mainly in 1960s. The term was coined in 1972 when the NY Times published reports about the climate change effects which started arising due to the occurrence of acid rain in the Hubbard Brook Experimental Forest in New Hampshire.
Causes of Acid Rain
Both natural and man-made sources are known to play a role in the formation of acid rain. But, it is mainly caused by combustion of fossil fuels which results in emissions of sulfur dioxide (SO2) and nitrogen oxides (NOx).
1. Natural Sources
The major natural causal agent for acid rain is volcanic emissions. Volcanoes emit acid producing gases to create higher than normal amounts of acid rain or any other form of precipitation such as fog and snow to an extent of affecting vegetation cover and health of residents within the surrounding. Decaying vegetation, wildfires and biological processes within the environment also generate the acid rain forming gases. Dimethly sulfide is a typical example of a major biological contributor to sulfur containing elements into the atmosphere. Lighting strikes also naturally produces nitric oxides that react with water molecules via electrical activity to produce nitric acid, thereby forming acid rain.
2. Man-made sources
Human activities leading to chemical gas emissions such as sulfur and nitrogen are the primary contributors to acid rain. The activities include air pollution sources emitting sulfur and nitrogen gases like factories, power generations facilities, and automobiles. In particular, use of coal for electrical power generation is the biggest contributor to gaseous emissions leading to acid rain. Automobiles and factories also release high scores of gaseous emissions on daily basis into the air, especially in highly industrialized areas and urban regions with large numbers of car traffic. These gases react in the atmosphere with water, oxygen, and other chemicals to form various acidic compounds such as sulfuric acid, ammonium nitrate, and nitric acid. As a result, these areas experience exceedingly high amounts of acid rain.
The existing winds blow these acidic compounds over large areas across borders and they fall back to the ground in the form of acid rain or other forms of precipitation. Upon reaching the earth, it flows across the surface, absorbs into the soil and enters into lakes and rivers and finally gets mixed up with sea water.
The gases i.e. i.e. sulfur dioxide (SO2) and nitrogen oxides (NOx) are primarily gases occurring from electric power generation by burning coal and responsible for acid rain.
Effects of Acid Rain
Acid rain has significant effects on the world environment and public health.
Effect on Aquatic Environment: Acid rain either falls directly on aquatic bodies or gets run off the forests, roads and fields to flow into streams, rivers and lakes. Over a period of time, acids get accumulated in the water and lower the overall pH of the water body. The aquatic plants and animals need a particular pH level of about 4.8 to survive. If the pH level falls below that the conditions become hostile for the survival of aquatic life. Acid rain tendency of altering pH and aluminum concentrations greatly affects pH concentration levels in surface water, thereby affecting fish as well as other aquatic life-forms. At pH levels below 5, most fish eggs cannot hatch. Lower pHs can also kill adult fish. Acid rain runoff from catchment areas into rivers and lakes has also reduced biodiversity as rivers and lakes become more acidic. Species including fish, plant and insect types in some lakes, rivers and brooks have been reduced and some even completely eliminated owing to excess acid rain flowing into the waters.
Effect on Forests: It makes trees vulnerable to disease, extreme weather, and insects by destroying their leaves, damaging the bark and arresting their growth. Forest damage due to acid rain is most evident in Eastern Europe – especially Germany, Poland and Switzerland.
Effect on Soil: Acid rain highly impacts on soil chemistry and biology. It means, soil microbes and biological activity as well as soil chemical compositions such as soil pH are damaged or reversed due to the effects of acid rain. The soil needs to maintain an optimum pH level for the continuity of biological activity. When acid rains seep into the soil, it means higher soil pH, which damages or reverses soil biological and chemical activities. Hence, sensitive soil microorganisms that cannot adapt to changes in pH are killed. High soil acidity also denatures enzymes for the soil microbes. On the same breadth, hydrogen ions of acid rain leach away vital minerals and nutrients such as calcium and magnesium.
Vegetation Cover and Plantations: The damaging effects of acid rain on soil and high levels of dry depositions have endlessly damaged high altitude forests and vegetation cover since they are mostly encircled by acidic fogs and clouds. Besides, the widespread effects of acid rain on ecological harmony have lead to stunted growth and even death of some forests and vegetation cover.
Effect on Architecture and Buildings: Acid rain on buildings, especially those constructed with limestone, react with the minerals and corrode them away. This leaves the building weak and susceptible to decay. Modern buildings, cars, airplanes, steel bridges and pipes are all affected by acid rain. Irreplaceable damage can be caused to the old heritage buildings.
Effect on Public Health: When in atmosphere, sulfur dioxide and nitrogen oxide gases and their particulate matter derivatives like sulfates and nitrates, degrades visibility and can cause accidents, leading to injuries and deaths. Human health is not directly affected by acid rain because acid rain water is too dilute to cause serious health problems. However, the dry depositions also known as gaseous particulates in the air which in this case are nitrogen oxides and sulfur dioxide can cause serious health problems when inhaled. Intensified levels of acid depositions in dry form in the air can cause lung and heart problems such as bronchitis and asthma.
Other Effects: Acid rain leads to weathering of buildings, corrosion of metals, and peeling of paints on surfaces. Buildings and structures made of marble and limestone are the ones especially damaged by acid rain due to the reactivity of the acids in the rain and the calcium compounds in the structures. The effects are commonly seen on statues, old grave stones, historic monuments, and damaged buildings. Acid rain also corrodes metals like steel, bronze, copper, and iron.
Deforestation_ForestDamage
Hi eka, i want to ask you about How does the process of acid rain occur chemically?
BalasHapusOk intan
HapusAnswerNatural Acidity of Rainwater
Pure water has a pH of 7.0 (neutral); however, natural, unpolluted rainwater actually has a pH of about 5.6 (acidic).[Recall from Experiment 1 that pH is a measure of the hydrogen ion (H+) concentration.] The acidity of rainwater comes from the natural presence of three substances (CO2, NO, and SO2) found in the troposphere (the lowest layer of the atmosphere). As is seen in Table I, carbon dioxide (CO2) is present in the greatest concentration and therefore contributes the most to the natural acidity of rainwater.
Gas
Natural Sources
Concentration
Carbon dioxide
CO2 Decomposition 355 ppm
Nitric oxide
NO Electric discharge 0.01 ppm
Sulfur dioxide
SO2 Volcanic gases 0-0.01 ppm
Table 1
Carbon dioxide, produced in the decomposition of organic material, is the primary source of acidity in unpolluted rainwater.
NOTE: Parts per million (ppm) is a common concentration measure used in environmental chemistry. The formula for ppm is given by:
Carbon dioxide reacts with water to form carbonic acid (Equation 1). Carbonic acid then dissociates to give the hydrogen ion (H+) and the hydrogen carbonate ion (HCO3-) (Equation 2). The ability of H2CO3 to deliver H+ is what classifies this molecule as an acid, thus lowering the pH of a solution.
(1)
(2)
Nitric oxide (NO), which also contributes to the natural acidity of rainwater, is formed during lightning storms by the reaction of nitrogen and oxygen, two common atmospheric gases (Equation 3). In air, NO is oxidized to nitrogen dioxide (NO2) (Equation 4), which in turn reacts with water to give nitric acid (HNO3) (Equation 5). This acid dissociates in water to yield hydrogen ions and nitrate ions (NO3-) in a reaction analagous to the dissociation of carbonic acid shown in Equation 2, again lowering the pH of the solution.
(3)
(4)
(5)
Acidity of Polluted Rainwater
Unfortunately, human industrial activity produces additional acid-forming compounds in far greater quantities than the natural sources of acidity described above. In some areas of the United States, the pH of rainwater can be 3.0 or lower, approximately 1000 times more acidic than normal rainwater. In 1982, the pH of a fog on the West Coast of the United States was measured at 1.8! When rainwater is too acidic, it can cause problems ranging from killing freshwater fish and damaging crops, to eroding buildings and monuments.
Why acid rain can happen? Have Jambi experienced it?
BalasHapusAcid rain is defined as all kinds of rain with pH below 5.6. Rain is naturally acidic (pH slightly below 6) because carbon dioxide (CO2) in the water dissolved with rainwater has a form as a weak acid. This type of acid in rain is very beneficial because it helps dissolve the minerals in the soil needed by plants and animals.
HapusAcid rain is caused by sulfur (sulfur) which is an impurity in fossil fuels and nitrogen in the air that reacts with oxygen to form sulfur dioxide and nitrogen oxide. These substances diffuse into the atmosphere and react with water to form sulfuric acid and soluble nitric acid so that it falls with rain water. The acid rain water will increase the acidity level of soil and surface water that proved dangerous for fish and plant life. Efforts to overcome this is currently being intensively implemented.
Had occurred in jambi province at the time of the forest fire
How to reduce the adverse effects of acid rain?
BalasHapusEfforts to Reduce and Prevent Impacts from Acid Rain
HapusEfforts to control acid deposition are to use fuels that contain little pollution, avoiding the formation of contaminants during combustion, catching pollutants from exhaust gases and saving energy.
A) Using Fuel With Low Sulfur content
Sulfur content in fuel varies. The use of origin gas will reduce the emission of acid-forming substances, but this gas leak can increase methane emissions. Another effort is to use non-sulfur fuel or alternative fuels that are environmentally friendly, for example methanol, ethanol and hydrogen.
B) Pollution Control During Combustion
Several technologies to reduce SO2 and NOx emissions at the time of combustion have been developed. One technology is lime injection in multiple burners (LIMB). In addition, it can also be done with the use of Scrubbers. This tool is able to reduce sulfur oxide emissions by 80-95% (Ophardt, C.O., 2003).
C) Control After Burning
Pollutants can also be reduced by combustion gases. The most widely used technology is fle gas desulfurization (FGD). Another way is to use ammonia as a binding agent so that the resulting waste can be used as a fertilizer.
D) Apply the 3R principle (Reuse, Recycle, Reduce)
This principle should be used as the foundation when producing an item, where the product must be reusable or can be recycled so that the amount of waste or waste generated can be reduced.
E) To reduce the adverse effects arising from acid rain on soil or lake can be done by adding lime to the soil or into the lake. The addition of lime into the soil and the lake can neutralize the acidic properties.
F) Reforestation or re-planting. The success of reforestation and land rehabilitation programs will increase land productivity and environmental quality especially in aspects.
How acid rain can occur and how to reduce the occurrence of acid rain
BalasHapusPage problems
HapusAcid rain is defined as all kinds of rain with pH below 5.6. Rain is naturally acidic (pH slightly below 6) because carbon dioxide (CO2) in the water dissolved with rainwater has a form as a weak acid. This type of acid in rain is very beneficial because it helps dissolve the minerals in the soil needed by plants and animals.
Acid rain is caused by sulfur (sulfur) which is an impurity in fossil fuels and nitrogen in the air that reacts with oxygen to form sulfur dioxide and nitrogen oxide. These substances diffuse into the atmosphere and react with water to form sulfuric acid and soluble nitric acid so that it falls with rain water.
Efforts to control acid deposition are to use fuels that contain little pollution, avoiding the formation of contaminants during combustion, catching pollutants from exhaust gases and saving energy.
A) Using Fuel With Low Sulfur content
Sulfur content in fuel varies. The use of origin gas will reduce the emission of acid-forming substances, but this gas leak can increase methane emissions. Another effort is to use non-sulfur fuel or alternative fuels that are environmentally friendly, for example methanol, ethanol and hydrogen.
B) Pollution Control During Combustion
Several technologies to reduce SO2 and NOx emissions at the time of combustion have been developed. One technology is lime injection in multiple burners (LIMB). In addition, it can also be done with the use of Scrubbers. This tool is able to reduce sulfur oxide emissions by 80-95% (Ophardt, C.O., 2003).
C) Control After Burning
Pollutants can also be reduced by combustion gases. The most widely used technology is fle gas desulfurization (FGD). Another way is to use ammonia as a binding agent so that the waste produced can be used as a fertilizer.
D) Applying the 3R principle (Reuse, Recycle, Reduce)
This principle should be used as the foundation when producing an item, where the product must be reusable or can be recycled so that the amount of waste or waste generated can be reduced.
E) To reduce the adverse effects arising from acid rain on soil or lake can be done by adding lime to the soil or into the lake. The addition of lime into the soil and the lake can neutralize the acidic properties.
F) Reforestation or replanting. The success of reforestation and land rehabilitation programs will increase land productivity and environmental quality especially in aspects.
What is the impact of acid rain on life
BalasHapusThe skin can feel acid rain if the rain water is about the skin it will feel itchy, flushed, even can make people experience dizziness.
HapusThe occurrence of acid rain can menimnulkan negative impact on the environment and living things. Rain with high acidity levels can cause disturbances in human respiration.
For example the fog with sulfuric acid levels along with the air will be inhaled and into the human respiratory tract.
Of course it can harm the lungs, it can damage the lungs even also affect the skin that causes skin burns.
Acid rain can also damage the building. Water with acid content if exposed to the building will accelerate the corrosion process.
Corrosion or corrosion processes can occur in some materials of metal. Not only that, acid rain can also dissolve sandstone, limestone, marble and paint.
Plants can become dry, wilt and die. Water from acid rain that dissolves in the soil will sweep the nutrients in the soil.
If this nutrient is absorbed by plants it will inhibit growth, leaves will fall and the plants will experience drought and die.
Acid rain also can damage aquatic ecosystems. High acid content in sea water or lakes can disrupt fish to take nutrients, salt and oxygen
Why acid rain can cause corrosion?
BalasHapusCauses corrosion and damage to buildings. Acid rain can accelerate the corrosion process. The corrosion process can occur on some materials of metal. Corrosion is the event of metal destruction caused by chemical reactions between metals and the environment that produce unwanted products. Such environments may be acids, bases, oxygen in air, oxygen in water, or other chemicals. This unwanted product is rust. Characteristic of rust is in the form of dark brown spots (see picture below). (A) Rusty Nails, (B) Stone Monument Damaged Due to Acid Rain The existence of this rust is very harmful and in certain conditions can threaten the safety of the soul. These corrosive metals will usually become brittle and porous. And this is certainly very dangerous if the corrosion is a bridge of iron. Bridge over time will be fragile and porous. To prevent the occurrence of this corrosion we can do some way one of them is by painting. In addition to corrosion in acid rain metal can also damage buildings, especially buildings made of rock (see figure 14b). This is because acid rain will dissolve the calcium carbonate in the rock and make rocks become easily weathered.
Hapuswhat the meaning of dilute to cause serious health problems?
BalasHapusActually there is no term terminology about blood dilute or other health disorders regarding blood dilute. Only, dilute blood is associated with decreased hemostatis (blood clotting) is the body's reaction to protect themselves from bleeding, and stop excessive blood loss.
HapusHow to Determine Encer Blood?
Blood viscosity should be checked to see HB levels, hematocrit, rate of sedimentation of blood and so on. The examination can be by Hematology method or complete blood test (CBC). In addition, hematology also serves to measure the concentration of white blood cells, red blood cells, and platelets in the blood. The results of these tests can assist doctors in diagnosing diseases such as anemia, infections, and other potential health problems with symptoms such as fatigue, weakness, and bruising. This test can also show the presence of blood cancer. So it is very useful to determine the blood you have, including normal or not.