1. The oxidation number of iron in pyrites FeS2 is
a. 1 b. 2
c. 3 d. 4
e. -4
2. Pyrolusite is converted to K2MnO by fusing it with
a. KOH b. KNO3
c. KOH and KNO3 d. K2CO3
e. KOH and MnO2
3. A metal purified by zone-refining is
a. Si b. Ga
c. Ti d. Mg
e. Ni
4. A metal used as scavenger during steel manufacturing process
a. Mn b. Cu
c. Ti d. Ni
e. None of these
5. Speigel is an alloy of
a. Fe, Mn, Cr b. Fe, Mn, C
c. Cu, Ni, Zn d. Fe, Sn, C
e. Fe, Cu, Ni
6. In the conversion of pig iron to wrought iron the furnace lining is made of
a. Lime stone b. Carbon
c. Haematite d. Silica
c. Carborundum
7. Among the first row transition elements the highest oxidation state is exhibited by
a. V b. Cr
c. Mn d. Fe
e. Co
8. A blue oxide of chromium formed when acidified K2Cr2O7 reacts with H2O2 in ether is
a. CrO3 b. Cr2O3
c. CrO5 d. K2CrO4
e. None of these
9. An alloy used for making electromagnets and ocean cables is
a. Invar b. Chrome steel
c. Stainless steel d. Permalloy
e. German silver
10. A chemical used for stopping bleeding from cuts and bruises
a. FeCl3 b. AgNO3
c. CuSO4 d. KNO3
e. Al2O3
11. Ruby copper is an important mineral containing copper. It is mostly1. The oxidation number of iron in pyrites FeS2 is
a. 1 b. 2
c. 3 d. 4
e. -4
2. Pyrolusite is converted to K2MnO by fusing it with
a. KOH b. KNO3
c. KOH and KNO3 d. K2CO3
e. KOH and MnO2
3. A metal purified by zone-refining is
a. Si b. Ga
c. Ti d. Mg
e. Ni
4. A metal used as scavenger during steel manufacturing process
a. Mn b. Cu
c. Ti d. Ni
e. None of these
5. Speigel is an alloy of
a. Fe, Mn, Cr b. Fe, Mn, C
c. Cu, Ni, Zn d. Fe, Sn, C
e. Fe, Cu, Ni
6. In the conversion of pig iron to wrought iron the furnace lining is made of
a. Lime stone b. Carbon
c. Haematite d. Silica
c. Carborundum
7. Among the first row transition elements the highest oxidation state is exhibited by
a. V b. Cr
c. Mn d. Fe
e. Co
8. A blue oxide of chromium formed when acidified K2Cr2O7 reacts with H2O2 in ether is
a. CrO3 b. Cr2O3
c. CrO5 d. K2CrO4
e. None of these
9. An alloy used for making electromagnets and ocean cables is
a. Invar b. Chrome steel
c. Stainless steel d. Permalloy
e. German silver
10. A chemical used for stopping bleeding from cuts and bruises
a. FeCl3 b. AgNO3
c. CuSO4 d. KNO3
e. Al2O3
11. Ruby copper is an important mineral containing copper. It is mostly1. The oxidation number of iron in pyrites FeS2 is
a. 1 b. 2
c. 3 d. 4
e. -4
2. Pyrolusite is converted to K2MnO by fusing it with
a. KOH b. KNO3
c. KOH and KNO3 d. K2CO3
e. KOH and MnO2
3. A metal purified by zone-refining is
a. Si b. Ga
c. Ti d. Mg
e. Ni
4. A metal used as scavenger during steel manufacturing process
a. Mn b. Cu
c. Ti d. Ni
e. None of these
5. Speigel is an alloy of
a. Fe, Mn, Cr b. Fe, Mn, C
c. Cu, Ni, Zn d. Fe, Sn, C
e. Fe, Cu, Ni
6. In the conversion of pig iron to wrought iron the furnace lining is made of
a. Lime stone b. Carbon
c. Haematite d. Silica
c. Carborundum
7. Among the first row transition elements the highest oxidation state is exhibited by
a. V b. Cr
c. Mn d. Fe
e. Co
8. A blue oxide of chromium formed when acidified K2Cr2O7 reacts with H2O2 in ether is
a. CrO3 b. Cr2O3
c. CrO5 d. K2CrO4
e. None of these
9. An alloy used for making electromagnets and ocean cables is
a. Invar b. Chrome steel
c. Stainless steel d. Permalloy
e. German silver
10. A chemical used for stopping bleeding from cuts and bruises
a. FeCl3 b. AgNO3
c. CuSO4 d. KNO3
e. Al2O3
11. Ruby copper is an important mineral containing copper. It is mostly
Sunday, March 30, 2008
Saturday, March 29, 2008
medical entrance tips
WHAT IS HORMONE?
HORMONES ARE SECRETED BY THE ENDOCRINE GLANDS.ENDOCRINE MEANS ‘THE INTERNAL SECRETION OF GLANDS .’ANOTHER NAME FOR THEM IS DUCTLESS GLANDS ,BECAUSE THEY DON’T SENDTHEIR SECRETION INTO BUT DIRECTLY INTO THE BLOODSTREAM .HORMONES ARE ALSO PRODUCED BY SOME ORGANS SUCH AS THE LIVER AND KINDNEY ,BUT MOST OF THE HORMONES IN THE BODY COME FROM GLANDS .
EACH OF THE VARIOUS HORMONES PRODUCES ITS OWN SPECIAL EFFECT IN THE BODY .IN GENERAL ,THE JOB OF THE HORMONES IS TO REGULATE THE INTERNAL ACTIVITIES OF THE BODY ,SUCH AS GROTH AND NUTRITION ,THE STORATGE AND USE OF FOOD METERIALS ,AND THE REPRODUCTIVE PROCESSES.IF THE GLANDS PRODUCE TOOMUCH OR NOT ENOUGH ,A PERSON MAY HAVE AN ABNORMAL PHYSICAL APPEARANCE.HERE ARE WHAT SOME OF THE CHIEF GLANDS AND HORMONES DO IN OUR BODIES;
THE THYROID GLAND LOCATED IN THE NECK PRODUCE A HORMONE WHICH HELPS IN THE GROWTH,DEVELOPMENT,AND METOBOLIC PROCESSES OF THE BODY.
THE PITUITARY GLAND,LOCATED AT THE BASE OF THE SKULL,HASTWO PARTS.AS WE KNOW, ONE HORMONE PRODUCED BY ONE PART OF THIS GLAND HAS THE JOB OF PROMOTING GROWTH.
ANOTHER PART OF THE PITUITARY GLAND PRODUCE TWO HORMONES WHICH HELP CONTROL OUR USE OF WATER,FAT OUR BLOOD PRESSURE, AND THEE WAY WE REGULATE THE HEAT IN OUR BODY.
THERE ARE TWO IMPORTANT GLANDS LOCATED AT THE UPPER END OF EACH KIDNEY.ONE PRODUCES A HORMONE CALLED ADRENALIN.THIS HORMONE IS RELATED TO BLOOD PRESSURE AND REACTIONS TOP EMOTION AND EMERGENCIES. WHEN YOU BEEECOME EXCITED OR FRIGHTNED,YOU PRODUCEMORE OF THIS HORMONE.
OTHER GLANDS IN THE BODY PRODUCE HORMONES WHICH HAVE TO DO WITH MAKING YOU ACT LIKE A BOY OR A GIRL.SO YOU SEE THAT HORMONES ARE RESPONSIBLE FOR AGREAT DEAL ABOUT YOU AND YOUR HEALTH.
HORMONES ARE SECRETED BY THE ENDOCRINE GLANDS.ENDOCRINE MEANS ‘THE INTERNAL SECRETION OF GLANDS .’ANOTHER NAME FOR THEM IS DUCTLESS GLANDS ,BECAUSE THEY DON’T SENDTHEIR SECRETION INTO BUT DIRECTLY INTO THE BLOODSTREAM .HORMONES ARE ALSO PRODUCED BY SOME ORGANS SUCH AS THE LIVER AND KINDNEY ,BUT MOST OF THE HORMONES IN THE BODY COME FROM GLANDS .
EACH OF THE VARIOUS HORMONES PRODUCES ITS OWN SPECIAL EFFECT IN THE BODY .IN GENERAL ,THE JOB OF THE HORMONES IS TO REGULATE THE INTERNAL ACTIVITIES OF THE BODY ,SUCH AS GROTH AND NUTRITION ,THE STORATGE AND USE OF FOOD METERIALS ,AND THE REPRODUCTIVE PROCESSES.IF THE GLANDS PRODUCE TOOMUCH OR NOT ENOUGH ,A PERSON MAY HAVE AN ABNORMAL PHYSICAL APPEARANCE.HERE ARE WHAT SOME OF THE CHIEF GLANDS AND HORMONES DO IN OUR BODIES;
THE THYROID GLAND LOCATED IN THE NECK PRODUCE A HORMONE WHICH HELPS IN THE GROWTH,DEVELOPMENT,AND METOBOLIC PROCESSES OF THE BODY.
THE PITUITARY GLAND,LOCATED AT THE BASE OF THE SKULL,HASTWO PARTS.AS WE KNOW, ONE HORMONE PRODUCED BY ONE PART OF THIS GLAND HAS THE JOB OF PROMOTING GROWTH.
ANOTHER PART OF THE PITUITARY GLAND PRODUCE TWO HORMONES WHICH HELP CONTROL OUR USE OF WATER,FAT OUR BLOOD PRESSURE, AND THEE WAY WE REGULATE THE HEAT IN OUR BODY.
THERE ARE TWO IMPORTANT GLANDS LOCATED AT THE UPPER END OF EACH KIDNEY.ONE PRODUCES A HORMONE CALLED ADRENALIN.THIS HORMONE IS RELATED TO BLOOD PRESSURE AND REACTIONS TOP EMOTION AND EMERGENCIES. WHEN YOU BEEECOME EXCITED OR FRIGHTNED,YOU PRODUCEMORE OF THIS HORMONE.
OTHER GLANDS IN THE BODY PRODUCE HORMONES WHICH HAVE TO DO WITH MAKING YOU ACT LIKE A BOY OR A GIRL.SO YOU SEE THAT HORMONES ARE RESPONSIBLE FOR AGREAT DEAL ABOUT YOU AND YOUR HEALTH.
Friday, March 28, 2008
MEDICAL ENTRANCE TIPS
WHAT DO WHITE BLOOD CELLS DO?
YOU CAN SEE THAT BLOOD, SO NECESSARY FOR LIFE, IS NOT A SIMPLE THING.MANY DIFFERENT SUBSTANCE HAVE THEIR SPECIAL WORK AND
IMPORTANCE.
ALTHOUGH THE RED CELLS ARE BY FAR MORE NUMEROUS IN THE BLOOD AND GIVE BLOOD ITS COLOR,THE WHITE BLOOD CELLS HAVE A CRITICAL ROLE, TOO. THE WHITE BLOOD CELLS ARE CALLED LEUCOCYTES.
THE MOST COMMON LEUCOCYTES ARE GRANULAR CELLS.THESE CELLS PASS IN AND OUT OF THE BLOOD TO THE SPOT WHERE GERMS OR INJURED TISSUE HAVE COLLECTED.SOME OF THESE CELLS,CALLED NEUTROPHILS, TAKE BACTERIA INTO THEMSELVES AND DESTROY THEM.THEY ALSO GIVE OFF SUBSTANCES WHICH DIGEST AND SOFTEN DEAD TISSUE AND FORM PUS.
OTHER WHITE CELLS IN THE BLOOD ARE CALLED LYMPHOCYTES. THE LYMPHOCYTES OFTEN INCREASE IN NUMBERS IN A PART OF THE BODY WHERE INFECTION HAS CONTINUED FOR MORE THAN ASHORT TIME.THIS IS A PART OF THE BODY’SPROCESS FOR FIGHTING INFECTIONS,SO YOU CAN SEE THEIR JOB IS QUITE IMPORTANT.
STILLOTHER WHITE BLOOD CELLS ARE THE MONOCYTES.THESE CELLS, TOGETHER WITH OTHER CELLS IN THE TISSUES,HAVE THE ABILITY TO TAKE UP PIECES OF DEAD METERIAL. THEY CAN ALSO SURROUND MATERIAL SUCH US DIRT, AND KEEP IT FROM COMING IN CONTACT WITH HEALTHY TISSUE CELLS.
BY THE WAY, EVEN THOUGH WHITE BLOOD CELLS ARE SO NECESSARY TO THE BODY, TOO MANY OF THEM ARE NOT GOOD EITHER. WHEN TOO MANY WHITE BLOOD CELLS ARE FORMED, AND THEY DO NOT GROW INTO THE HEALTHY, ACTIVE CELLS THAT ARE NEEDED, THE CONDITION IS CALLED LEUKEMIA, OR CANCER OF THE BLOOD.
SO THE BLOOD IS LIKE ACHEMICAL FORMULA IN WHICH THERE HAS TO BE JUST THE RIGHT AMOUNT OF EACH SUBSTANCE-RED CELLS,WHITE CELLS, PROTEINS, SALT, CARBOHYDRATES, FATS AND SO ON.
YOU CAN SEE THAT BLOOD, SO NECESSARY FOR LIFE, IS NOT A SIMPLE THING.MANY DIFFERENT SUBSTANCE HAVE THEIR SPECIAL WORK AND
IMPORTANCE.
ALTHOUGH THE RED CELLS ARE BY FAR MORE NUMEROUS IN THE BLOOD AND GIVE BLOOD ITS COLOR,THE WHITE BLOOD CELLS HAVE A CRITICAL ROLE, TOO. THE WHITE BLOOD CELLS ARE CALLED LEUCOCYTES.
THE MOST COMMON LEUCOCYTES ARE GRANULAR CELLS.THESE CELLS PASS IN AND OUT OF THE BLOOD TO THE SPOT WHERE GERMS OR INJURED TISSUE HAVE COLLECTED.SOME OF THESE CELLS,CALLED NEUTROPHILS, TAKE BACTERIA INTO THEMSELVES AND DESTROY THEM.THEY ALSO GIVE OFF SUBSTANCES WHICH DIGEST AND SOFTEN DEAD TISSUE AND FORM PUS.
OTHER WHITE CELLS IN THE BLOOD ARE CALLED LYMPHOCYTES. THE LYMPHOCYTES OFTEN INCREASE IN NUMBERS IN A PART OF THE BODY WHERE INFECTION HAS CONTINUED FOR MORE THAN ASHORT TIME.THIS IS A PART OF THE BODY’SPROCESS FOR FIGHTING INFECTIONS,SO YOU CAN SEE THEIR JOB IS QUITE IMPORTANT.
STILLOTHER WHITE BLOOD CELLS ARE THE MONOCYTES.THESE CELLS, TOGETHER WITH OTHER CELLS IN THE TISSUES,HAVE THE ABILITY TO TAKE UP PIECES OF DEAD METERIAL. THEY CAN ALSO SURROUND MATERIAL SUCH US DIRT, AND KEEP IT FROM COMING IN CONTACT WITH HEALTHY TISSUE CELLS.
BY THE WAY, EVEN THOUGH WHITE BLOOD CELLS ARE SO NECESSARY TO THE BODY, TOO MANY OF THEM ARE NOT GOOD EITHER. WHEN TOO MANY WHITE BLOOD CELLS ARE FORMED, AND THEY DO NOT GROW INTO THE HEALTHY, ACTIVE CELLS THAT ARE NEEDED, THE CONDITION IS CALLED LEUKEMIA, OR CANCER OF THE BLOOD.
SO THE BLOOD IS LIKE ACHEMICAL FORMULA IN WHICH THERE HAS TO BE JUST THE RIGHT AMOUNT OF EACH SUBSTANCE-RED CELLS,WHITE CELLS, PROTEINS, SALT, CARBOHYDRATES, FATS AND SO ON.
Thursday, March 27, 2008
MEDICAL ENTRANCE TIPS
NICKEL
NICKEL FORMS MANY ALLOYS WHICH ARE USED IN HUNDRIEDS OF INDUSTRIES IN MANY WAYS.NICKEL IS FOUND IN METEORITESA ,AND IT IS SOME TIMES FOUND IN THE FREE STATE .BUT THE GREATEST SUPPLAY OF NICKEL IS OBTAINED FROM CERTAIN ORES CALLED PYRRHOTITE,WHICH IS MINERALCONTAINING IRON ,COPPER ,AND NICKEL.CANADA IS THE GREASTEST OF ALL NICKEL PRODUCING COUNTRIES.MOST NICKEL GOES INTO THE MAKING OF AN ALLOY WHICH CAN WITHSTAND REPEATED STRAINS.IT IS USED IN STRUCTURL WORK ,BRIDGES,RAILROAD RAILS AT CURVES ,RIVETS,LOCOMOTIVE BOILERSAUTOMOBILE GEARS AND AXLES ,AND THE DIPPER TEETH OF STEAM SHOVELS
NICKEL FORMS MANY ALLOYS WHICH ARE USED IN HUNDRIEDS OF INDUSTRIES IN MANY WAYS.NICKEL IS FOUND IN METEORITESA ,AND IT IS SOME TIMES FOUND IN THE FREE STATE .BUT THE GREATEST SUPPLAY OF NICKEL IS OBTAINED FROM CERTAIN ORES CALLED PYRRHOTITE,WHICH IS MINERALCONTAINING IRON ,COPPER ,AND NICKEL.CANADA IS THE GREASTEST OF ALL NICKEL PRODUCING COUNTRIES.MOST NICKEL GOES INTO THE MAKING OF AN ALLOY WHICH CAN WITHSTAND REPEATED STRAINS.IT IS USED IN STRUCTURL WORK ,BRIDGES,RAILROAD RAILS AT CURVES ,RIVETS,LOCOMOTIVE BOILERSAUTOMOBILE GEARS AND AXLES ,AND THE DIPPER TEETH OF STEAM SHOVELS
medical entrance tips
ALKYNES
1. Generic formula - CnH2n-2
2. Propargyl goup -CH º C - CH2-
3. Dipropargyl CH º C- CH2 - CH2 C º CH, 1,5 - Hexadiyne(Openchain isomerof benzene)
4. Alkynes are isomeric with Dienes (functional isomerism)
5. Alkynes exhibit chain isomerism, position isomerism and functional isomerism
6. CaC2 with water gives acetylene
7. Mg2C3 with water gives allylene (CH3C º CH)
8. Iodoform when heated with Ag powder gives acetylene
9. Alkynes are obtained by the dehydrohalogenation of gem and vic - dihalides
10. Dehalogenation of tetrahalides with zinc
11. By the electrolysis of a concentrated solution of Sodium salt of maleic acid or fumaric acid
12. Acetylene is obtained by the hydrolysis of acetylides
eg:- C2Na2, C2Cu2, Ag2C2
13. Acetylene is readily soluble in acetone
14. Temperature of oxy-acetylene flame > 3000°C
Addition reactions
1.Reduction:
RC º CR1 ________________> RCH = CR1 Cis olefin
RC º CR1 _________> R CH = CH R1 trans olefin
RCº CR1 __________ > RCH = CHR1 ______> R CH2CH2 R1
Lindlar’s catalyst Pd - CaCO3 or Pd / BaSO4 ( partially poisoned with lead tetra acetate)
2. Addition of Halogen acids ___ gem dihalide is formed
RC º C-R + H Br ___> RCH = C -Br ______> R CH2 C Br2
3. Addition of Halogens
RC º C-R ______> R CBr = C Br ______> RC Br2 - RCBr2
4. Acetylene tetrachloride is commercialy is known westron
5. Oxymercuration- addition of water - Aldehydes or ketones
CH º CH _________> CH2 = CHOH __ _________________> CH3CHO
CH3C º CH _________> CH3 - COH = CH2 ____________________> CH3 _ COCH3
6. Addition of HOCl
CH3C º CH + HOCl ___> CH3 - COH = CHCl ___> CH3 -C(OH)2 - CH2Cl2
7. Hydroboration
RC º CR1 ______> (RCH = CR1)3 B _________> RCH = CHR1
Cis olefin
1. Generic formula - CnH2n-2
2. Propargyl goup -CH º C - CH2-
3. Dipropargyl CH º C- CH2 - CH2 C º CH, 1,5 - Hexadiyne(Openchain isomerof benzene)
4. Alkynes are isomeric with Dienes (functional isomerism)
5. Alkynes exhibit chain isomerism, position isomerism and functional isomerism
6. CaC2 with water gives acetylene
7. Mg2C3 with water gives allylene (CH3C º CH)
8. Iodoform when heated with Ag powder gives acetylene
9. Alkynes are obtained by the dehydrohalogenation of gem and vic - dihalides
10. Dehalogenation of tetrahalides with zinc
11. By the electrolysis of a concentrated solution of Sodium salt of maleic acid or fumaric acid
12. Acetylene is obtained by the hydrolysis of acetylides
eg:- C2Na2, C2Cu2, Ag2C2
13. Acetylene is readily soluble in acetone
14. Temperature of oxy-acetylene flame > 3000°C
Addition reactions
1.Reduction:
RC º CR1 ________________> RCH = CR1 Cis olefin
RC º CR1 _________> R CH = CH R1 trans olefin
RCº CR1 __________ > RCH = CHR1 ______> R CH2CH2 R1
Lindlar’s catalyst Pd - CaCO3 or Pd / BaSO4 ( partially poisoned with lead tetra acetate)
2. Addition of Halogen acids ___ gem dihalide is formed
RC º C-R + H Br ___> RCH = C -Br ______> R CH2 C Br2
3. Addition of Halogens
RC º C-R ______> R CBr = C Br ______> RC Br2 - RCBr2
4. Acetylene tetrachloride is commercialy is known westron
5. Oxymercuration- addition of water - Aldehydes or ketones
CH º CH _________> CH2 = CHOH __ _________________> CH3CHO
CH3C º CH _________> CH3 - COH = CH2 ____________________> CH3 _ COCH3
6. Addition of HOCl
CH3C º CH + HOCl ___> CH3 - COH = CHCl ___> CH3 -C(OH)2 - CH2Cl2
7. Hydroboration
RC º CR1 ______> (RCH = CR1)3 B _________> RCH = CHR1
Cis olefin
ANIMAL NUTRITIONDigestion
1. It is process of simplification of insoluble complex foodmaterials into soluble simple food materials, for easy absorbtion. It involves physical (mechanical) and chemical breakdown of various food materials . During the process carbohydrate is converted into glucose, proteins are converted into amino acids and lipids are converted into fatty acid and glycerol.
Types of digestion
Digestion is classified into two types, based on the site where digestion of occurs. They are
1. Intracellular digestion - When digestion takesplace inside the cells, it is called intracellular digestion. In this type, the cell engulfs food materials by endocytosis. Then they are digested by the enzymes inside the cells and the digested products diffuse into the cytoplasm.
Eg:- Protozoans and sponges
2. Extra cellular digestion:- When digestion takesplace outside the cells, It is called extracellular digestion. All the animals provided with alimentary canal exhibit extracellular digestion. Here digestion occurs inside the lumen of alimentary canal.
Digestive system:- It consists of alimentary canal and digestive glands.
Alimentary canal:- It includes mouth, buccal cavity, pharynx, oesophagus, stomach, small intestine, large intestine, rectum and anus.
Mouth is surrounded by lips. It leads into buccal cavity which contain teeth and tongue. The tongue is essential for ingestion, mastication, deglutition, taste and speech.
The teeth are thecodont- placed in sockets and heterodont - there are four types of teeth present, (i) cheisel shaped incisors used for cutting the food materials (ii) dagger shaped canines employed for tearing or piercing the food materials, (iii) premolars and (iv) molars. The last two types are used for grinding the foodmaterials. Therefore known as grinders.
The bucculcavity receives the duct of three pairs of salivary glands -- parotid , submaxilary and sublingual glands - produce saliva, which contain a starch digesting enzyme ptyalin (salivary amylase)
The buccul cavity leads into pharynx, the common chamber for digestive and respiratory systems. It leads into oesophagus, which distally opens into stomach.
The stomach is J shaped and consists of cardiac, fundic and pyloric parts. Fundus is the main stomach. Pyloric stomach is also known as antrum. The stomach is provided with the large number of gastric glands which produce gastric juice. The gastric gland consists of oxyntic cells (parietal cells) - produce hydrochloric acid, chiefcells or zymogen cells or peptic cells - produce pepsin and rennin and mucous cells - produce mucous. The pyloric stomach opens into the small intestine by pyloric orifice, gaurded by pyloric sphincter.
The small intestine has three regions . U shaped first part is known as duodenum, receives a common bile duct from pancreas and liver. The jejunum followes duodenum and is longer and more coiled. The last part- ileum is also highly coiled and opens into the large intestine. The small intestine is provided with large number of intestinal glands (crypts of Liberkuhn) produce intestinal juice or succuss entericus.
At the junction of small intestine and large intestine there is a finger like structure called vermiform appendix. It is vestigeal in man but involved in immune mechanism by producing lymphocytes and antibodies.
The large intestine consists of colon and rectum. Human colon consists of an ascending colon, a transverse colon, a descending colon and a pelvic colon. The pelviccolon continues into the rectum which opens to the exterior through the anus. The large intestine secretes no enzymes but serves to store unabsorbed food materials temporarly It also helps for the absorbtion of water.
Origin of life
1. Spontaneous generation - abiogenesis
Proposed by Aristotle. According to this theory life, originates spontaneously from lifeless matter or non-living things
Eg:- Fishes originated from mud, insects from decaying meat, frogs from moist soil etc.
Louis Pasteur, by his swan-necked flask experiment proved that abiogenesis is not true
(ii) Biogenesis:- Proposed by Fransisco Redi. According to this theory life originates from pre-existing life only. This theory was also supported by Spallanzani and Louis Pasteur
Cosmic theory / Theory of panspermia - proposed by Ritcher
According to this theory the life is distributed through out the cosmos in the form of resistant "spores" or "seeds" known as cosmozoa. These cosmozoa reached the earth and on getting favourable condition, they developed in to organism.
GENETIC POLYMORPHISM
The occurrence of two or more different forms of an organism in the same species or population is called polymorphism.
Features of polymorphism
1. It is the presence of two or more morphological Froms in a species
2. It is due to the existence of different types of genotypes
3. It helps the species to survive efficiently in a variety of environments.
4. The different forms are adapted to the different environments. Each of which is superior in a particular habitat.
Eg:- Blood group of man- Based on blood groups, there are four morphs such as type A, type B, type AB, and type O. All these are determined by different genotypes
Balanced polymorphism
The preservation of genetic variability by heterozygosity is called balanced polymorphism
Eg:- Sickle cell anemia
In man the production of haemoglobin is controlled by the dominant genes - HbA HbA. When this genes are present in the recessive condition ie, HbsHbs, an abnormal haemoglobin is produced and the result is sickle cell anemia. The heterozygous condition ie, HbAHbs do not produce any harm. Moreover a heterozygous individual is not infected by malaria, because the sickle shaped RBC kill the malarial parasite which enter into it. Thus the heterozygous individuals are resistance to malaria.
Species:-
Species are the groups of actually potentially interbreeding natural population that are reproductively isolated from other such groups. It is the basic unit of classification the salient features of a species.
1. Species is amendelian population or a biological unit.
2. Members of species possess distinct morphological features.
3. The memvers of a species are reproductively isolated from other species.
4. The members interbreed among themselves.
5. They share a common gene pool
Sub - species
It is defined as geographically isolated population of a species, which are capable of interbreeding and produce fertile hybrids.
Eg:- The bird golden whistler pachyce phala - pectoralis.
Sibling species
Morphologically similar but reproductively isolated species is known as sibling species. Eg:- Drosophila pseudoobseura and Drosophila persimilis, the two species of fruitfly (Drosophila) do not cross-fertilize.
Speciation
The process of formation of new species is called speciation. There are allopatric speciation and sympatric speciation
1. Allopatric speciation
When two populations inhabit geographically or spatially separated ares, they are called allopatric population. The evolution of such populations into separate species is called sympatric speciation.
Isolation
The segregation of populations into smaller units sections to prevent interbreeding is known as isolation. It is classified them into reproductive isolation and geographic isolation.
Reproductive isolation
Any genetically determined agency that prevents in tebreeding is called reproductive isolation. The reproductive isolation may be of two types. They are premating or prezygotic isolation and postmating or postzygotic isolation Reproductive isolation results sympatric speciation.
a. Pre-mating isolation
This is the external reproductive isolation which prevents inter specific mating. It includes seasonal isolation, eclogical isolation etc.
b. Post-mating isolation
This is the internal reproductive isolation which reduces the formation of zygotes or hybrids. It is due to zygote mortality, hybrid sterility etc.
Geographical isolation
In this isolation, two populations are separated by some barriers such as mountain ranges, deserts, thick forests land bridges or water connections etc. Geographical isolation results in allopatric speciation.
Homologous organs and homology
The organs which are fundamentally similar in structure and origin but adapted for different functions are called homologous organs and this phenomenon is called homology
eg:- Whale’s flipper bat’s wing horse’s foot, cat’s paw, and the human hand. All these perform different function and look superficially different, but are constructed on the same plan
Such homologous anatomical structure implies a common ancestry.
The origin of homologous organs due to adaptive radiation from a common ancestor, is known as divergent evolution
Analogous organ and analogy
The organs which have similar function but differ in structure and origin are called analogous organs and this phenomenon is called analogy are analogous organs. The origin of analogous organs due to adaptations for life in similar habits, is known as convergent evolution.
Vestigial organs
The organs which are non-functional in the pre-sent day animals but were functional in their ancestors and in related animals, are called vestigial organs
Eg:- Vermiform appendix, nictiating membrane, muscles of external ear, coccyx, wisdom teeth, body hair in male etc.
Genetic drift
The random changes in the allele frequency occuring by chance in small populations are called genetic drift. It was described by sewall - wright in 1931. Hence it is all so called Sewall - wright effect. Due to genetic drift some genes are preserved or destroyed irrespective of their quality in small population..
Hardy Weinberg Equilibrium
Proposed by G.H. Hardy and W-Weinberg, which states that in a large population, the gene frequencies of various kinds of gene, remain constant generation after generation if matiny is at random and in the absence of evolutioning forces like mutation, selection and migration. This Hardy-Weinberg is also known as Hardy-weinsberg equilibrium because the gene frequencies in a population are maintained in a state of equilibrium. Evolution occurs only when this equilibrium is upset ie evolution is a departure from Hardy - Weinberg Equilibrium.
Palaeontological evidences
Fossil is the dead remains of the past. It include bones teeth shells and other hard parts and also impressions or imprints left by some previous organs. Fossils are the direct and concrete evidences of evolution. It is also regarded as the written documents of evolution. The process of preservation of organisms or their parts in the form of fossils is known as fossilisation.
The study of fossil is called paleantology it includes plaeozoology (fossil Animals) and paleobotany any (fossil plants). Leonardo da Vinci is considered as the father of palaeontology.
Significance of fossils
2. They help to study the structure, form traits and behaviour of extinct animals .
3. They given an idea above the form and structure of extinct animals
4. They help to study the phylogeny (evolution any history race history) of some Animals such as horse, camels, man etc.
5. Fossils indicate the connecting link between two groups of organisms.
For eg:- Archaeopterix, the fossil bird shows the features of both reptiles and birds. Therefore the connecting with link between birds and reptiles.
6. The time in history when different species were formed or became extinct can be inferred through the analysis of the distribution of fossils in different strait of rocks.
Wednesday, March 26, 2008
MEDICAL ENTRANCE TIPS
24. e/m values of electrons, protrons, neutrons and a particles,
neutron < alpha particles < proton < electron
25. First atom model (plum-pudding model) was proposed by J.J. Thomson.
26. Nuclear model of atom was proposed by Rutherford.
27. Corpuscular nature of light was proposed by Issac Newton.
28. Wave nature of light was proposed by Christian Huygens.
29. A seientiest who got Nobel Prize for proving frequency dependence of photoelectric effect is Albert Einstein.
30. Einstien equation for photo electric emission ;
hr = 1/2 mv2 + w
31. Compton effect : The scattered x-rays have lower frequency ie Lower energy than the incident rays.
32. Dual nature of light was proposed by Albert Einstein
33. Photoelectric effect, compton effect, blackbody radiation, reflection and refraction of light illustrates
particle character.
34. Diffraction and interference of light shows wave character.
35. 1 Angstrom = 10-8 cm = 10-10 m
1 nm = 10-9 m = 10 Angstrom.
36. Unit of frequency - Hertz or cycles / second
37. g = c / l
38. Wave number (g) = 1/l or g = g/c c = 3.8 X 108 m/s
39. Plancks equation E = hg
h = 6.63 X 10-34 J.S.
40. Emission Spectrum was studied by Bunsen and kirchoff
41. The different regions of electromagnetic spectrum in the order of increasing frequency
Radiowaves, microwaves, IR, Visible, uv, x-rays, gamma rays
42. X- rays (Rontgen) were produced if cathode rays were allowed to strike certain metals (anticathode).
X - rays are not deflected by electric and magnetic fields.
44. Rydberg’s formula (Ritz-combination Principle)
neutron < alpha particles < proton < electron
25. First atom model (plum-pudding model) was proposed by J.J. Thomson.
26. Nuclear model of atom was proposed by Rutherford.
27. Corpuscular nature of light was proposed by Issac Newton.
28. Wave nature of light was proposed by Christian Huygens.
29. A seientiest who got Nobel Prize for proving frequency dependence of photoelectric effect is Albert Einstein.
30. Einstien equation for photo electric emission ;
hr = 1/2 mv2 + w
31. Compton effect : The scattered x-rays have lower frequency ie Lower energy than the incident rays.
32. Dual nature of light was proposed by Albert Einstein
33. Photoelectric effect, compton effect, blackbody radiation, reflection and refraction of light illustrates
particle character.
34. Diffraction and interference of light shows wave character.
35. 1 Angstrom = 10-8 cm = 10-10 m
1 nm = 10-9 m = 10 Angstrom.
36. Unit of frequency - Hertz or cycles / second
37. g = c / l
38. Wave number (g) = 1/l or g = g/c c = 3.8 X 108 m/s
39. Plancks equation E = hg
h = 6.63 X 10-34 J.S.
40. Emission Spectrum was studied by Bunsen and kirchoff
41. The different regions of electromagnetic spectrum in the order of increasing frequency
Radiowaves, microwaves, IR, Visible, uv, x-rays, gamma rays
42. X- rays (Rontgen) were produced if cathode rays were allowed to strike certain metals (anticathode).
X - rays are not deflected by electric and magnetic fields.
44. Rydberg’s formula (Ritz-combination Principle)
MEDICAL ENTRANCE TIPS
Atomic structure
1. Electrical nature of matter was proposed by Michael Farady.
2. Cathode rays were discovered by Plucker.
3. When cathode rays are allowed to strike a screen coated with ZnS a fluorescent spot will be formed.
4. Electrons were discovered by J.J. Thomson
5. The name electron was given by Stoney
6. Charge of electron = 1.6 x 10-19 C or 4.8 x 10-10 esu.
7. Mass of electron - 9.1 x 10-31 Kg or 0.000549 amu or 1/1837 of the hydrogen atom.
8. e/m ratio (specific charge) was determined by J.J. Thomson
e/m = E/rH2 E - Strength of electric field
H - Stregth of magnetic field
r - radius of the circular path
e/m ratio = 1.76 X 108 c/g or 5.28 X 1017 esu/g
9. Charge of the electron was determined by Millikan’s Oil Drop experiment.
10. Mass of an electron varies with its speed.
11. Electrons are universal constituents of all matter.
12. Proton were discovered by Goldstein.
13. The name Proton was given to canal rays by Rutherford.
14. Mass of Proton - 1.672 x 10-27 Kg or 1.0072 amu.
15. Specific charge of a proton - 9.57 x 107 C/kg.
16. e/m ratio of the particles of the canal rays was highest when hydrogen was used as the discharge gas. The ratio depends on the nature of the gas.
17. Neutrons were discovered by Chadwick.
18. Mass of neutron - 1.675 x 10-27 Kg or 1.0086 amu.
19. The mass of a neutron is slightly greater than that of a proton.
20. Nucleus was discovered by Rutherford by the scattering of a - particles on gold foil.
(Gieger-Marsden expt)
21. Most of the a - particles passed through the foil without deflection- Atom consists of mostly
empty space.
22. Radius of the nuecleus - 10-13 cm
23. Radius of an atom - 10-8 cm
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