Writing a Malayalam Essay can be an Unfamiliar Task

Writing a Malayalam Essay can be an Unfamiliar Task
Writing a Malayalam Essay can be an Unfamiliar Task
Malayalam Essays – Obtain a Good Understanding of its Origins before Writing

Many students are confused when they are assigned the Malayalam essay. What is Malayalam? Malayalam is one of the four main languages used in south India. Unless your are from the state of Kerala or have some affiliations to Keralites, you may find the language unfamiliar even if you are an Indian. This is because many languages are spoken in different parts of India ranging from Hindi, Urdu, Kannada to Tamil. Malayalam is mainly used in the state of Kerala. As there are many south Indians, especially Keralites who have immigrated to different parts of the globe, Malayalam is also used in the USA, Singapore and Europe. An essay on Malayalam can encompass many elements. These include life in Kerala, the history of the language, art and culture in Kerala etc.









Malayalam essay

Malayalam essay
Malayalam essay
Give life to your Malayalam essays with interesting information about Kerala

Malayalam is the language spoken in Kerala, south India. Write a Malayalam essay that showcases life in Kerala. Make it interesting with our help and expertise. There are quite a few facts that we can give you about this interesting state that is situated in the southernmost part of the Indian subcontinent.
Some facts about Kerala that you can put into your essays on Malayalam

1/- Situated on the western coast of India, Kerala is a land of coconut trees, beaches, rubber plantations and spice gardens. The official language of this state is Malayalm and Thurvananthapuram is the capital of this state. It shares borders with other southern Indian states of Tamil Nadu and Karnataka.









The Biological Importance of Water as a Solvent and as a Medium for Living Organisms

The Biological Importance of Water as a Solvent and as a Medium for Living Organisms
Water is possibly the most important substance life as we know it, as we need in order to survive; it also provides an environment for many species. All cells contain a minimum of 85% of water, with most fluids inside and outside of the cell likely to have at least 90% water. Both transportation of molecules and chemical reactions take place in dissolved water. In chemical terms, the water molecule is strongly dipolar, this property makes water a very effective solvent, particularly for crystalline salts .So, water is the solvent of the body & it regulates all functions, including the activity of everything it dissolves & circulates. When we look at a molecule of water, we know that the hydrogen molecules carry a small positive charge and the single oxygen carries a negative charge, because the molecules are charged, it makes water a polar molecule. The fact that water is a polar molecule is very important to many of its properties. When water molecules join together, the two different charges have an effect.









The Role of Water in Living Organisms

The Role of Water in Living Organisms
The Role of Water in Living Organisms Water is one of the most abundant substances on the planet. It can be found naturally in all three states; solid (ice), liquid (water), and gas (steam). However, chemically it is very unusual. For example, water molecules are slightly polar i.e. they have a positive and negative end. Due to this difference in electro-negativity the slightly positive charge on the hydrogen atom is attracted to the slightly negative charge on the oxygen atom in another molecule. This bond is called a hydrogen bond and is what causes the water to have its unusual properties. For example, other molecules of the same size of water (H2O) are all gases at room temperature and pressure (R.T.P). Without the hydrogen bonds, water too would be a gas at rtp and would have a boiling point of -120?C. Because it is polar, water also has uses as a solvent.









Carbon Dioxide

Carbon Dioxide
Carbon Dioxide is a colorless, odorless gas that occurs in small quantities in the earth?s atmosphere naturally. The earth?s ocean, soil, plants and animals release CO2. The formula of Carbon Dioxide is CO2. The CO2 molecule contains 2 oxygen atoms that each share 2 electrons with a carbon atom to form 2 carbon ? oxygen double bonds. The atoms are arranged as so (oht). This is called a ?linear molecule?.
Carbon dioxide is commonly found as a gas and is never a liquid. It sublimes to a solid known as ?dry ice? which is used as a substitute for normal ice as it is a lot colder and doesn?t melt.









The Effect of Substrate Concentration on the Activity of the Enzyme Catalase

The Effect of Substrate Concentration on the Activity of the Enzyme Catalase
The aim of this investigation is to find out if changing the substrate
concentration will have any effect on the activity of the enzyme
activity.









Understanding Acidic Precipitation or Acid Rain

Understanding Acidic Precipitation or Acid Rain
Our atmosphere functions as living ecosystem of chemical reactions. Through the help of the water cycle, chemicals pass through the atmosphere and are eventually taken up by the soil, surface water, or organic materials. Human beings have added enormously to the atmospheric burden of many toxic substances. The most prominent evidence of this is the presence of acid rain: precipitation and particles that have been made acidic by air pollution.
Acid rain is a direct consequence of the atmosphere?s self-cleansing process. The tiny droplets of water that make up clouds continuously capture suspended particles and soluble trace gases. Not all trace gases can be removed by precipitation, sulfur dioxide (SO2) and nitrogen oxides in the atmosphere are chemically converted into forms that are readily added into cloud droplets: sulfuric and nitric acids, the main acids involved in acid rain.
The reaction cycle takes place in the troposphere. It begins when sunlight hits an ozone molecule (O3) the result is a molecule of oxygen (O2) and a single oxygen atom, which combines with a water molecule (H2O) to form two hydroxyl radicals (HO). This sparse but active molecule forms nitrogen dioxide (NO2) into nitric acid (HNO3) which initiates the reactions that transforms sulfur dioxide into sulfuric acid (H2SO4). What this boils down to is, as a result only the amount of pollutant in the air determines how much acid is ultimately produced.









Biological Importance of Water

Biological Importance of Water
Water is an important part of life: Without it, life on earth would not exist. Water is a major component in cells, typically forming 70 to 95% of the cell?s mass. In humans water is around 80% of our mass. Water also provides an environment for organisms to live in. One obvious example of water?s biological importance is that 75% of the Earth is covered in water. [image]Water is one of the most unusual compounds on Earth. It has a variety of properties not found in any other liquid. These properties are due to its molecular composition, which is simply just 2 hydrogen atoms and one oxygen atom, making up H20. Water is a covalent compound. This means that water has covalent bonds, which are formed by sharing electrons in the outer orbits of the quantum shells. In the case of water however the large number of protons in the oxygen nucleus have a stronger attraction for these shared electrons than the comparatively tiny hydrogen nuclei. This pulls the electrons slightly closer to the oxygen nucleus and away from the hydrogen so that the oxygen develops a slight negative charge and the hydrogen?s a slight positive charge. This makes the water molecule a slightly Polar Molecule. This slight charge gives water its various properties; the first I will discuss is its solvent properties. ============== Water can act as a solvent.









Biology

Biology
1. Chloroplasts are small containers, which hold chlorophyll.
2. Endosymbiosis is the hypothesis which states that mitochondria started as bacteria absorbed by single celled organisms.
3. The cell theory is a theory that tells of information known about cells.
4. When reproducing, to create offspring you must pass on your own dna.
5. Gamete is the reproductive cell, which contains half the chromosomes to create life.
6. Cytokenesis is the process of cell division, which splits the cytoplasm.
7. Meiosis is the process of cell division, which splits the nucleus.
8. Mitosis is the process of cell division, which splits the cell membrane.
9. Diffusion is the movement of molecules across a membrane.
10. Osmosis is the diffusion of water across a membrane.









Ozone

Ozone
Ozone is an important molecule in maintaining the homeostasis in the
environment. Ozone, the molecule O3, makes a layer in the stratosphere,
situated 10 to 15 kilometers from the earth?s surface. The dioxide
molecule, O2 and Oxygen atom O, collide with each other result in the
formation of Ozone, O3. In this reaction, the molecule O3 contains an excess
of energy. Once the molecule is formed, it is not stable enough to last
long. The energy-rich O3 molecules discards the excess energy by colliding
with another atom or molecule and transferring the energy in the form of
heat. In the results of the decomposition of ozone into O2 and O in the
ozone layer, solar radiation is absorbed. This process of the chemical bond
breaking causing the absorption of a photon by a molecule is called
photodissociation. Radiation with sufficient intensity, is capable of
separating the O3 molecule, resulting in photodissociation. The cyclic
process formation and decomposition of ozone provides a shield against
ultraviolet radiation that enter the earth?s atmosphere. If it were not for
the chemical reaction of radiation and ozone in the stratosphere, these
high-energy photons would penetrate the earth?s surface. The ozone layer
absorbers about 99% of the harmful radiation which makes it possible for
animals and plants to live on the planet.