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Are you determined to secure your one seat of MBBS/BDS?
1. These are the parts of lymphatic system
2. Fats changes to lipoproteins in
3. Largest lymphoid mass is
4. Flow of lymph is maintained by
5. Just as blood is filtere by spleen,the lymph is filtered by
6. After taking too much fat, the lymph consists of how many fat globules
7. The lymphatic vessels of the body empty the lymph into blood stream at the
8. Lymph Nodes are drained by
9. Which one is more closely related to lymph
10. All are functions of lymphatic system except
11. Vaccination against specific disease like tetanus is an example of
12. Antibodies are injected in
13. Antibodies consist of
14. Antibodies are an example of ________ proteins
15. Antigen binding sites are present on
16. Any foreign body that activate immune system
17. Immunity is generally destroyed in
18. Type of immunity that is present by birth is called
19. Disulphide bridge is present between
20. Vaccination is not available for which of the following disease
21. Tiny hair like structures of roots are the extensions of
22. Out of total surface area provided by roots how much is provided by root hairs?
23. Maximum depth of Prosopis trees of leguminoseae family is?
24. These are the sites where most uptake of minerals and water takes place
25. Most of the minerals enter the root hair along with water through
26. The cell membrane in nature is
27. Apoplast pathway becomes discontinuous in endodermis due t presence of
28. In symplast pathway,transportation occurs through
29. _________ is a fluid in transit between interstitial fluid and the blood.
30. ____________ more fluid leaves the blood capillaries than is reabsorbed by them each day.
31. Spleen filters
32. Vaccines stimulate the production of ________ in body.
33. Antiserum is a serum containing
34. Passive immunity response is
35. Antibodies are manufactured in
36. _________ separates the extracellular space in the roots into two compartments.
37. Full turgidity i.e.maximum pressure potential is achieved when a cell is placed in __________.
38. The animal cells can not withstand higher pressure potential because:
39. Attraction among water molecules is called
40. It is provided when water chain is pulled up in the xylem by transpiration
41. Active transport is a selective process and is ________ dependent.
42. Water potential of pure water is
43. Osmotic (solute) potential is always
44. Each sieve tube member is associated by one or more:
45. Ascent of sap involves:
46. According to pressure flow theory ,which of the following serves as a skin
47. The color of lymph is48. What is an antigen
49. A rye plant less than 1m tall has 14 million branch roots of combined length of
50. The process not involved during ascent of sap in xylem:
51. Transpirational pull can carry xylem sap with high speed of _________ in tall trees.
52. Which one of the following is not a significant point of transpiration:
53. Cells which are directly involved in transport of sugars and other organic substances:
54. The destruction of antigen is caused by:
55. The important cells which supply ATP and proteins to sieve tubes are:
56. Sieve tube cells and companion cells communicates with each other through :
57. The pressure exerted by protoplast against the cell wall is called :
58. Blood provides immunity by:
59. The lymph most closely resembles with:
60. Passive immunity is developed by injecting:
61. The outward movement of water from plant cell is known as:
62. Active transport is selective and is dependent on:
63. Guttation occurs in plants through:
64. In the process of active uptake of minerals, plants uses the energy from:
65. Sugars are translocated through phloem. Which path do they take?
66. Largest lymph vessel is:
67. Both lysozyme and cytotoxic T cells:
68. Endogenous pyrogens produced in response to to infection cause decrease in:
69. Formation of chemical bond takes place when :
70. Which of following molecule contain six bonding electrons :
71. The structure of water is :
72. Which of following cannot form sigma bond ?
73. The central atom which may not follow the octet rule while forming covalent bond :
74. All of the following species have dative bond except :
75. Which of following species has lone pair of electrons on central atom?
76. End to end overlapping of orbitals gives rise to the formation of :
77. Pi bonds are produced by the overlapping of :
78. The concept of hybridization was given to remove which of following drawback(s) of V.B.T :
79. Which of the following molecule has coordinate covalent bond?
80. The shape of which of following molecules can be explained with concept of VSEPR theory :
81. In ground state the unpaired electrons in carbon are :
82. The number of true π bond in benzene molecule are :
83. In NH3 , dominant Van der Waal’s force among following is :
84. NH4+ and H3O+ are examples of ___ and ___ system respectively .
85. The shape of NH2- is :
86. Which pair has trigonal planar geometry ?
87. The electronic geometry of NH3 is :
88. Which of the following bonds is formed due to the overlap of orbitals along the internuclear axis?
89. What type of bond results from the sideways overlap of p orbitals?
90. In the formation of a double bond, the first bond is a sigma bond, while the second bond is a:
91. Hybridization involving one s and two p orbitals results in:
92. In a triple bond, how many sigma and pi bonds are present, respectively?
93. What is the hybridization of the carbon atom in ethyne (C2H2)?
94. In a molecule with tetrahedral geometry, the hybridization of the central atom is :
95. S character in sp³, sp² ,so is respectively
96. Which of following molecule or compound has sp² hybridization
2
11/11/2024 14:25:20164 / 200AAMAN SHAHID YeslactealslactealsSpleenAll of theseLymph nodes1 percentSub clavian veinSingle efferent VesselInterstital fluidFiltration of urea
Artificial passive immunity
Artificial Passive Immunity
Two heavy and two light chain only
Globular
Variable region of both heavy and light chain
AntigenHIV infectionInnate immunityHeavy-heavy chainFungalEpidermal cells67 percent90 metreRoot hairsFacilitated diffusionDifferentially permeableCasparian stripsplasmodesmetalymphThree litresBloodAntibodiesAntibodiesShort timedB – lymphocytesMesophyll cellsBoth A and BAbsence of cell wallCohesionTensionRespirationZeroNegativeCompanion cellsAll of the aboveRootsWhiteProteinOver 600 kilo metersExudation8m/hDistribution of sugarsSieve elementsAntibodiesCompanionPlasmodesmataTurgidityLeukocytesPlasmaAntibioticExosmosisRespirationHydathodesATP
Mesophyll à Companion cells à Sieve Elements
Thoracic duct
Kill cells through chemical interaction
Iron concentration
Forces of attraction > forces of repulsion
NH3AngularNone of thesePOH-PCl3Sigma bongUn hybrid orbitalsAll of aboveHClO3NH323Hydrogen bondingAB4. AB3EAngularBF3 , AlH3TetrahydralSigma bondPi bondPi bondsp2 hybridization1 sigma, 2 pipsp325 %,33 %,50Ethene
3
11/11/2024 6:30:57162 / 200Sajid AshrafYeslactealslactealsSpleenAll of theseLymph nodes1 percentSub clavian veinMany Afferent VesselInterstital fluidFiltration of ureaArtificial active immunity
Artificial Passive Immunity
Two heavy and two light chain only
Globular
Variable region of both heavy and light chain
AntigenHIV infectionInnate immunityHeavy-heavy chainFungalEpidermal cells67 percent50 metreRoot hairsActive transportDifferentially permeableCasparian stripsplasmodesmetalymphThree litresBloodAntibodiesAntibodiesImmediateB – lymphocytesCasparian stripsDistilled waterAbsence of cell wallCohesionTensionRespirationZeroNegativeCompanion cellsAll of the aboveLeavesColorlessToxic substanceOver 600 kilo metersExudation8m/hDistribution of sugarsSieve elementsT – cellsCompanionPlasmodesmataOsmotic pressureLeukocytesPlasmaAntiserumExocytosisRespirationHydathodesATP
Mesophyll à Companion cells à Sieve Elements
Thoracic duct
Kill cells by inducing apoptosis
Iron concentration
Forces of attraction > forces of repulsion
NH3Angular3pzPOH-PCl3Sigma bongUn hybrid orbitals
It could not explain tetravaleency of carbon
HClO3NH323Hydrogen bondingAB4. AB3EPyramidalBF3 , AlH3Trigonal pyramidalSigma bondPi bondPi bondsp2 hybridization1 sigma, 2 pipsp325 %,33 %,50Ethene
4
11/11/2024 19:56:54162 / 200Aliza Yamin YeslactealslactealsSpleenAll of theseLymph nodes1 percentSub clavian veinSingle efferent VesselBloodFiltration of ureaArtificial active immunity
Artificial Passive Immunity
Two heavy and two light chain only
Globular
Variable region of both heavy and light chain
AntigenHIV infectionInnate immunityHeavy-light chainBacterialEpidermal cells67 percent100 metreRoot hairsBulk flowDifferentially permeableCasparian stripsplasmodesmetalymphThree litresBloodAntibodiesAntibodiesImmediateB – lymphocytesMesophyll cellsBoth A and BAbsence of cell wallCohesionTensionAll of the foregoingZeroNegativeCompanion cellsAll of the aboveRootsColorlessProteinOver 600 metersExudation8m/hDistribution of sugarsSieve elementsT – cellsCompanionPlasmodesmataHydrostatic pressureLeukocytesBloodAntiserumExosmosisRespirationHydathodesATP
Mesophyll à Parenchyma à Sieve Elements
Thoracic duct
Kill cells by inducing apoptosis
Iron concentration
Forces of attraction > forces of repulsion
NH3AngularNone of thesePOH-PCl3Sigma bongUn hybrid orbitalsAll of aboveHClO3HCl2None of theseHydrogen bondingAB4. AB3EAngularBF3 , AlH3TetrahydralSigma bondPi bondPi bondsp2 hybridization1 sigma, 2 pipsp325 %,33 %,50Ethene
5
11/11/2024 16:03:53139 / 200Z..YeslactealslactealsSpleenAll of theseLymph nodes1 percentSub clavian veinSingle efferent VesselInterstital fluidFiltration of urea
Artificial passive immunity
Artificial Passive Immunity
Two heavy and two light chain only
Globular
Variable region of both heavy and light chain
AntigenHIV infectionInnate immunityHeavy-light chainFungalEpidermal cells67 percent50 metreRoot hairsBulk flowDifferentially permeableCasparian stripsplasmodesmetalymphThree litresBloodAntibodiesAntibodiesImmediateB – lymphocytesCasparian stripsHypertonic waterAbsence of cell wallCohesionTensionWaterZeroNegativeCompanion cellsAll of the aboveRootsPale yellowProteinOver 600 kilo metersExudation1m/hMineral distributionSieve elementsT – cellsCompanionSieve poresHydrostatic pressureLymphocytesInterstitial fluidAntiserumExosmosisPhotosynthesisHydathodesSunlight
Mesophyll à Sieve Elements à Companion cells
Thoracic duct
Kill cells through chemical interaction
Iron concentration
Forces of attraction > forces of repulsion
NH3Angular2sPOH-PCl3Sigma bongUn hybrid orbitalsAll of aboveNH3HCl23Hydrogen bondingAB4. AB3EAngularBF3 , AlH3Trigonal pyramidalPi bondSigma bondPi bondsp2 hybridization2 sigma, 1 pipsp325 %,33 %,50Ethene
6
11/11/2024 17:15:26135 / 200Yasir NoorYeslactealslactealsSpleenAll of theseLymph nodes10 percentSub clavian veinMany Afferent VesselInterstital fluidFiltration of urea
Artificial passive immunity
Artificial active immunity
Two heavy and two light chain only
Globular
Variable region of both heavy and light chain
AntigenHIV infectionInnate immunityHeavy-heavy chainViralXylem cells98 percent100 metreRoot hairsFacilitated diffusionDifferentially permeableCasparian stripsplasmodesmetalymphThree litresLymphAntibodiesAntibodiesImmediateB – lymphocytesMesophyll cellsBoth A and Bpresence of centriolesCohesionCohesionRespirationZeroNegativeCompanion cellsAll of the aboveLeavesColorlessProteinOver 600 kilo metersExudation1m/hDistribution of sugarsCompanion cellsAntibodiesCompanionSieve poresOsmotic pressureLeukocytesPlasmaAntiserumExosmosisTranspirationLenticelsATP
Parenchyma à Companion cells à Sieve Elements
Left subclavian vein
Kill cells by generating a membrane attack complex
Iron concentration
Forces of attraction > forces of repulsion
NH3Angular3pzCBF4-NH4+Sigma bongUn hybrid orbitalsAll of aboveHClO3NH323Hydrogen bondingAB4. AB3EAngularBF3 , AlH3Trigonal pyramidalSigma bondPi bondPi bondsp2 hybridization1 sigma, 2 pisp2sp325 %,33 %,50Ethene
7
11/11/2024 13:04:04128 / 200Nizam jaffar YeslactealslactealsSpleenAll of theseLymph nodes10 percentSub clavian veinMany Afferent VesselInterstital fluidFiltration of ureaArtificial active immunity
Artificial Passive Immunity
Two heavy and two light chain only
Globular
Variable region of both heavy and light chain
AntigenHIV infectionAcquired immunityHeavy-light chainBacterialEpidermal cells67 percent100 metreRoot hairsBulk flowDifferentially permeableCasparian stripsendodermis cellslymphThree litresBloodAntibodiesAntibodiesShort timedWhite blood cellsMesophyll cellsPure water
Absence of central vacuole
CohesionTensionAll of the foregoingZeroNegativeCompanion cellsAll of the aboveRootsPale yellowToxic substanceOver 60 metersExudation8m/hCooling effectSieve elementsAntibodiesCompanionSieve poresTurgidityLeukocytesInterstitial fluidVaccineExosmosisTranspirationHydathodesATP
Mesophyll à Companion cells à Sieve Elements
Thoracic duct
Kill cells by inducing apoptosis
Iron concentration
Forces of attraction > forces of repulsion
NH3Angular3pzFOH-PCl3Pi bondUn hybrid orbitalsAll of aboveHClO3HCl23Hydrogen bondingAB3E , AB2EAngularBF3 , AlH3Trigonal pyramidalSigma bondPi bondPi bondsp2 hybridization1 sigma, 2 pisp2sp325 %,33 %,50Propene
8
11/11/2024 13:12:22108 / 200Falak Noor YesliverlactealsSpleenAll of theseLymph nodes10 percentSub clavian veinSingle efferent VesselInterstital fluidFiltration of urea
Artificial passive immunity
Artificial Passive Immunity
Two heavy and two light chain only
Globular
Variable region of both heavy and light chain
AntigenHIV infectionInnate immunityHeavy-light chainViralEpidermal cells78 percent90 metreRoot hairsActive transportDifferentially permeableCasparian stripsplasmodesmetalymphOne litreBloodAntibodiesAntibodiesImmediateB – lymphocytesCasparian stripsBoth A and BAbsence of cell wallCohesionAdhesionIonsZeroNegativeCompanion cellsAll of the aboveLeavesPale yellowToxic substanceOver 600 metersExudation8m/hDistribution of sugarsSieve elementsAntibodiesCompanionSieve poresTurgidityLymphocytesBoth A and BAntibioticEndocytosisTranspirationHydathodesATP
Mesophyll à Sieve Elements à Companion cells
Left subclavian vein
Kill cells by inducing apoptosis
Iron concentration
Forces of repulsion > forces of attraction
NH3Angular3pzCOH-PCl3Pi bond
Atomic orbital and hybrid orbital
All of aboveNH3F223Hydrogen bondingAB4 , AB4AngularBF3 , AlH3Trigonal pyramidalSigma bondPi bondPi bondsp2 hybridization1 sigma, 2 pisp2sp325 %,33 %,50Ethene
9
11/11/2024 15:02:14102 / 200NOOR YesduodenumCryptsThymusAll of theseSpleen20 percentSub clavian veinMany Afferent VesselInterstital fluidFiltration of ureaArtificial active immunityNatural Passive ImmunityTwo heavy chain onlyGlobular
Constant region of heavy chain only
AntibodiesHIV infectionInnate immunityHeavy-heavy chainViralEpidermal cells98 percent50 metreRoot hairsFacilitated diffusionDifferentially permeableCasparian stripsplasmodesmetalymphOne litreLymphAntibodiesAntibodiesSlowB – lymphocytesCasparian stripsHypertonic waterAbsence of cell wallCohesionCohesionIonsZeroNegativeCompanion cellsAll of the aboveLeavesMilkyProteinOver 60 metersExudation8m/hDistribution of sugarsSieve elementsAntiserumCompanionSieve poresHydrostatic pressureLymphocytesInterstitial fluidVaccineExosmosisPhotosynthesisHydathodesATP
Mesophyll à Parenchyma à Sieve Elements
Left subclavian vein
Kill cells through chemical interaction
Body temperature
Forces of attraction > forces of repulsion
C 2H 4Angular3pzFH30+NH4+Sigma bongHybrid orbitalsAll of aboveNH3N233Hydrogen bondingAB3E , AB2EAngularNH3 , PH3Trigonal plannarSigma bondPi bondPi bondsp2 hybridization1 sigma, 2 pisp2sp325 %,33 %,50Methane
10
11/13/2024 9:31:14166 / 200fariYeslactealslactealsSpleenAll of theseLymph nodes1 percentSub clavian veinMany Afferent VesselBloodFiltration of urea
Artificial passive immunity
Artificial Passive Immunity
Two heavy and two light chain only
Globular
Variable region of both heavy and light chain
AntigenHIV infectionInnate immunityHeavy-heavy chainFungalEpidermal cells67 percent50 metreRoot hairsdiffusionDifferentially permeableCasparian stripsplasmodesmetalymphThree litresBloodAntibodiesAntibodiesImmediateB – lymphocytesEndodermall cellsBoth A and BAbsence of cell wallCohesionTensionRespirationZeroNegativeCompanion cellsAll of the aboveStemColorlessToxic substanceOver 60 kilo metersExudation8m/hGaseous exchangeSieve elementsAntibodiesCompanionPlasmodesmataHydrostatic pressureLymphocytesBloodAntiserumExosmosisRespirationHydathodesATP
Mesophyll à Companion cells à Sieve Elements
Thoracic duct
Kill cells by generating a membrane attack complex
Iron concentration
Forces of attraction > forces of repulsion
NH3AngularNone of thesePOH-PCl3Sigma bongUn hybrid orbitals
It could not explain tetravaleency of carbon
HClO3NH323Hydrogen bondingAB4. AB3EAngularBF3 , AlH3Trigonal pyramidalSigma bondPi bondPi bondsp2 hybridization1 sigma, 2 pipsp325 %,33 %,50Ethene
11
11/13/2024 13:58:58140 / 200Shamama YeslactealslactealsSpleenAll of theseLymph nodes1 percentSub clavian veinSingle efferent VesselInterstital fluidFiltration of urea
Artificial passive immunity
Artificial active immunity
Two heavy and two light chain only
Globular
Variable region of both heavy and light chain
AntibodiesHIV infectionInnate immunityHeavy-heavy chainViralXylem cells67 percent50 metreRoot hairsdiffusionDifferentially permeableCasparian stripsplasmodesmetalymphThree litresBloodAntibodiesAntigenImmediateB – lymphocytesMesophyll cellsBoth A and BAbsence of cell wallCohesionTensionRespirationZeroNegativeMesophyll cellsAll of the aboveRootsColorlessProteinOver 60 kilo metersExudation8m/hDistribution of sugarsCompanion cellsAntibodiesCompanionSieve poresHydrostatic pressureLymphocytesBoth A and BAntiserumExosmosisRespirationHydathodesSunlight
Mesophyll à Companion cells à Sieve Elements
Thoracic duct
Kill cells through chemical interaction
Body temperature
Forces of attraction > forces of repulsion
C 2H 4Angular3pzFBF4-PCl3Pi bondUn hybrid orbitalsAll of aboveHClO3F213Hydrogen bondingAB4. AB3EAngularBF3 , AlH3Trigonal pyramidalSigma bondSigma bondPi bondsp2 hybridization1 sigma, 2 pipsp325 %,33 %,50Ethene
12
11/14/2024 20:01:05133 / 200NehhaYeslactealslactealsSpleenAll of theseLymph nodes1 percentSub clavian veinMany Efferent VesselInterstital fluidFiltration of ureaArtificial active immunityArtificial active immunity
Two heavy and two light chain only
Globular
Variable region of both heavy and light chain
AntigenAll infectionsInnate immunityHeavy-heavy chainViralEpidermal cells67 percent90 metreRoot hairsActive transportDifferentially permeableCasparian stripsplasmodesmetalymphThree litresBloodAntibodiesAntibodiesImmediateB – lymphocytesMesophyll cellsBoth A and B
Absence of central vacuole
TensionTensionRespirationZeroNegativeCompanion cellsAll of the aboveRootsColorlessProteinOver 600 metersExudation8m/hDistribution of sugarsCompanion cellsAntibodiesCompanionSieve poresOsmotic pressureRBCBoth A and BVaccineExosmosisRespirationHydathodesATP
Parenchyma à Companion cells à Sieve Elements
Left subclavian vein
Kill cells by inducing apoptosis
Body temperature
Forces of attraction > forces of repulsion
C 2H 4Angular3pzPOH-NH4+Sigma bongUn hybrid orbitals
It could not explain tetravaleency of carbon
NH3NH323Hydrogen bondingAB3E , AB2EPyramidalNH3 , PH3Trigonal plannarSigma bondPi bondPi bondsp2 hybridization1 sigma, 2 pipsp325 %,33 %,50Ethene
13
11/16/2024 12:59:17149 / 200aYeslactealslactealsSpleenAll of theseLymph nodes20 percentSub clavian veinMany Efferent VesselInterstital fluidFiltration of ureaArtificial active immunity
Artificial Passive Immunity
Two heavy and two light chain only
Globular
Variable region of both heavy and light chain
AntigenHIV infectionInnate immunityHeavy-heavy chainBacterialEpidermal cells98 percent50 metreRoot hairsdiffusionDifferentially permeableCasparian stripsplasmodesmetalymphThree litresBloodAntibodiesAntibodiesImmediateB – lymphocytesCasparian stripsBoth A and BAbsence of cell wallCohesionAdhesionRespirationZeroNegativeCompanion cellsAll of the aboveRootsMilkyToxic substanceOver 600 metersExudation8m/hDistribution of sugarsSieve elementsAntibodiesCompanionPlasmodesmataTurgidityLeukocytesInterstitial fluidAntiserumExosmosisRespirationHydathodesATP
Mesophyll à Companion cells à Sieve Elements
Left subclavian vein
Kill cells by generating a membrane attack complex
Iron concentration
Forces of attraction > forces of repulsion
NH3Angular3pzPBF4-PCl3Sigma bongUn hybrid orbitals
It could not explain tetravaleency of carbon
HClO3NH323Hydrogen bondingAB4. AB3EAngularBF3 , AlH3Trigonal pyramidalSigma bondPi bondPi bondsp2 hybridization1 sigma, 2 pipsp325 %,33 %,50Ethene
14
11/16/2024 15:43:52145 / 200Ayesha Maqsood YeslactealslactealsSpleenAll of theseLymph nodes1 percentSub clavian veinSingle efferent VesselInterstital fluidFiltration of ureaArtificial active immunity
Artificial Passive Immunity
Two heavy and two light chain only
Globular
Variable region of both heavy and light chain
AntigenHIV infectionInnate immunityHeavy-heavy chainViralEpidermal cells67 percent50 metreRoot hairsActive transportDifferentially permeableCasparian stripsplasmodesmetalymphThree litresBloodAntibodiesAntibodiesImmediateB – lymphocytesCasparian stripsBoth A and BAbsence of cell wallCohesionTensionIonsZeroNegativeCompanion cellsAll of the aboveStemColorlessBlood groupOver 600 kilo metersExudation8m/hDistribution of sugarsSieve elementsB – cellsCompanionPlasmodesmataOsmotic pressureLymphocytesInterstitial fluidAntiserumExocytosisTranspirationHydathodesATP
Mesophyll à Parenchyma à Sieve Elements
Left subclavian vein
Kill cells by generating a membrane attack complex
Iron concentration
Forces of attraction > forces of repulsion
CO₂Angular3pzPOH-PCl3Sigma bongUn hybrid orbitals
It does not explain the odd electron system
HClO3NH346Hydrogen bondingAB4. AB3EAngularNH3 , PH3Trigonal plannarPi bondPi bondPi bondsp hybridization1 sigma, 2 pisp2sp325 %,33 %,50Ethene
15
11/17/2024 17:43:30125 / 200Laiba YeslactealslactealsTonsilsAll of theseLymph nodes1 percentSub clavian veinSingle efferent VesselInterstital fluidBlood filtrationArtificial active immunityArtificial active immunity
Two heavy and two light chain only
Fibrous
Constant region of heavy chain only
AntigenHIV infectionInnate immunityLight-heavy chainMicrobialEpidermal cells98 percent90 metreRoot hairsdiffusionDifferentially permeableCasparian stripsplasmodesmetaplasmaThree litresBloodAntigenAntibodiesShort timedB – lymphocytesEndodermall cellsBoth A and BAbsence of cell wallCohesionAdhesionAll of the foregoingZeroNegativeCompanion cellsCohesion tension theoryRootsColorlessProteinOver 60 metersExudation600 feet /hGaseous exchangeSieve elementsAntibodiesCompanionSieve poresTurgidityLeukocytesInterstitial fluidAntibioticExosmosisRespirationHydathodesATP
Mesophyll à Companion cells à Sieve Elements
Thoracic duct
Kill cells through chemical interaction
Macrophage production
Forces of attraction > forces of repulsion
NH3Angular3pzPOH-PCl3Sigma bongUn hybrid orbitalsAll of aboveHClO3HCl23Dipole dipole forcesAB2 , AB4PyramidalBF3 , AlH3Trigonal pyramidalSigma bondPi bondPi bondsp2 hybridization1 sigma, 2 pipsp325 %,33 %,50Ethene
16
11/18/2024 8:30:33164 / 200Rabia Mairaj ❤️🐰YeslactealslactealsSpleenAll of theseLymph nodes1 percentSub clavian veinMany Afferent VesselInterstital fluidFiltration of ureaArtificial active immunity
Artificial Passive Immunity
Two heavy and two light chain only
Globular
Variable region of both heavy and light chain
AntigenHIV infectionInnate immunityHeavy-heavy chainFungalEpidermal cells67 percent50 metreRoot hairsBulk flowDifferentially permeableCasparian stripsplasmodesmetalymphThree litresBloodAntibodiesAntibodiesImmediateB – lymphocytesEndodermall cellsBoth A and BAbsence of cell wallCohesionTensionRespirationZeroNegativeCompanion cellsAll of the aboveStemColorlessToxic substanceOver 600 kilo metersExudation1m/hDistribution of sugarsSieve elementsAntibodiesCompanionPlasmodesmataTurgidityLymphocytesInterstitial fluidAntiserumExosmosisRespirationHydathodesATP
Mesophyll à Companion cells à Sieve Elements
Left subclavian vein
Kill cells through chemical interaction
Iron concentration
Forces of attraction > forces of repulsion
NH3Angular3pzPOH-PCl3Sigma bongUn hybrid orbitals
It could not explain tetravaleency of carbon
HClO3NH3212Hydrogen bondingAB4 , AB4AngularBF3 , AlH3Trigonal pyramidalPi bondPi bondPi bondsp2 hybridization1 sigma, 2 pipsp325 %,33 %,50Ethene
17
11/19/2024 9:52:36131 / 200Sam YesduodenumlactealsSpleenAll of theseLymph nodes1 percentSub clavian veinMany Afferent VesselInterstital fluidBlood filtrationArtificial active immunity
Artificial Passive Immunity
Two heavy and two light chain only
Globular
Variable region of both heavy and light chain
AntigenHIV infectionInnate immunityHeavy-heavy chainBacterialEpidermal cells67 percent100 metreRoot hairsdiffusionDifferentially permeableCasparian stripsplasmodesmetalymphThree litresBloodAntibodiesAntibodiesImmediateB – lymphocytesPhloem cellsHypertonic water
Absence of central vacuole
CohesionAdhesionAll of the foregoingZeroNegativeCompanion cellsAll of the aboveLeavesColorlessToxic substanceOver 60 kilo metersExudation8m/hGaseous exchangeSieve elementsAntiserumCompanionPlasmodesmataTurgidityLymphocytesInterstitial fluidAntiserumExosmosisRespirationHydathodesGlucose
Mesophyll à Companion cells à Sieve Elements
Left subclavian vein
Kill cells through chemical interaction
Iron concentration
Forces of attraction > forces of repulsion
NH3Angular3pzPOH-NH4+Sigma bongUn hybrid orbitalsAll of aboveNH3NH323Hydrogen bondingAB2 , AB4AngularBF3 , AlH3TetrahydralPi bondPi bondPi bondsp2 hybridization1 sigma, 2 pipsp325 %,33 %,50Ethene
18
11/19/2024 17:25:5682 / 200Maryam RubabYesvillilactealsSpleenAll of theseLymph nodes1 percentBile DuctSingle efferent VesselInterstital fluidProvide immunity
Artificial passive immunity
Natural Active Immunity
Two heavy and two light chain only
Globular
Variable region of both heavy and light chain
AntigenHIV infectionInnate immunityHeavy-light chainBacterialEpidermal cells67 percent100 metreRoot hairsFacilitated diffusionFreely permeableCasparian stripsplasmodesmetalymphOne litreBloodAntibodiesAntibodiesTime takingB – lymphocytesCasparian stripsDistilled water
Absence of central vacuole
CohesionAdhesionWaterZeroPositiveCompanion cellsCohesion tension theoryLeavesPale yellowToxic substanceOver 600 metersImbibitions8m/hCooling effectCompanion cellsAntiserumCompanionCasparian stripsHydrostatic pressureRBCPlasmaVaccineExocytosisTranspirationLenticelsATP
Parenchyma à Companion cells à Sieve Elements
Thoracic duct
Kill cells by generating a membrane attack complex
Body temperatureEnergy is absorbedC 2H 4Tertragonal3pzOBF4-PCl5Pi bondUn hybrid orbitalsAll of aboveHClN216Hydrogen bondingAB2 , AB4AngularBF3 , AlH3TetrahydralPi bondSigma bondPi bondsp hybridization2 sigma, 1 pisp3dsp325 %,33 %,50Propene
19
11/26/2024 22:19:09139 / 200Kamran Akbar YeslactealslactealsSpleenAll of theseLymph nodes1 percentSub clavian veinMany Afferent VesselInterstital fluidFiltration of urea
Artificial passive immunity
Artificial Passive Immunity
Two heavy and two light chain only
Globular
Variable region of both heavy and light chain
AntigenHIV infectionInnate immunityLight-heavy chainBacterialEpidermal cells98 percent50 metreRoot hairsBulk flowDifferentially permeableCasparian stripsplasmodesmetalymphThree litresBloodAntibodiesAntibodiesImmediateB – lymphocytesCasparian stripsBoth A and B
Absence of central vacuole
CohesionTensionAll of the foregoingZeroNegativeCompanion cellsAll of the aboveLeavesColorlessProteinOver 60 metersExudation8m/hGaseous exchangeCompanion cellsAntibodiesCompanionSieve poresHydrostatic pressureLymphocytesInterstitial fluidSerumExosmosisRespirationHydathodesATP
Mesophyll à Companion cells à Sieve Elements
Thoracic duct
Kill cells by inducing apoptosis
Body temperature
Forces of attraction > forces of repulsion
NH3Angular3pzPOH-PCl3Sigma bongUn hybrid orbitals
It could not explain tetravaleency of carbon
HClO3NH326Hydrogen bondingAB3E , AB2EAngularBF3 , AlH3Trigonal pyramidalPi bondPi bondPi bondsp2 hybridization1 sigma, 2 pisp2sp325 %,33 %,50Ethene
20
11/29/2024 22:14:20134 / 200ibrahimYeslactealslactealsSpleenVisceral movementsLymph nodes20 percentSub clavian veinSingle efferent VesselInterstital fluidFiltration of ureaArtificial active immunityArtificial active immunity
Two heavy and two light chain only
Globular
Variable region of both heavy and light chain
AntigenAll diseaseInnate immunityHeavy-heavy chainFungalEpidermal cells67 percent50 metreRoot hairsBulk flowDifferentially permeableCasparian stripsplasmodesmetalymphThree litresBloodAntigenAntibodiesImmediateB – lymphocytesEndodermall cellsPure waterAbsence of cell wallCohesionAdhesionIonsZeroPositiveCompanion cellsCohesion tension theoryLeavesColorlessProteinOver 60 kilo metersImbibitions200m/hCooling effectSieve elementsAntibodiesCompanionSieve poresTurgidityLeukocytesInterstitial fluidAntiserumExocytosisTranspirationStomataATP
Mesophyll à Sieve Elements à Companion cells
Thoracic duct
Kill cells by inducing apoptosis
Iron concentrationEnergy is absorbedC 2H 4AngularNone of theseOOH-PCl3Sigma bongUn hybrid orbitals
It could not explain tetravaleency of carbon
HClO3NH343Hydrogen bondingAB4. AB3EAngularBF3 , AlH3Trigonal pyramidalSigma bondPi bondPi bondsp2 hybridization1 sigma, 2 pipsp325 %,33 %,50Ethene
21
12/1/2024 13:07:55154 / 200WajuYeslactealslactealsSpleenAll of theseLymph nodes8 percentSub clavian veinSingle efferent VesselInterstital fluidFiltration of ureaArtificial active immunity
Artificial Passive Immunity
Two heavy and two light chain only
Globular
Variable region of both heavy and light chain
AntigenHIV infectionInnate immunityLight-heavy chainViralEpidermal cells67 percent100 metreleavesdiffusionDifferentially permeableCasparian stripsplasmodesmetalymphThree litresLymphAntibodiesAntibodiesImmediateB – lymphocytesCasparian stripsPure water
Absence of central vacuole
CohesionTensionAll of the foregoingZeroNegativeCompanion cellsAll of the aboveNoneWhiteToxic substanceOver 600 kilo metersExudation1m/hDistribution of sugarsSieve elementsAntibodiesCompanionPlasmodesmataTurgidityLymphocytesInterstitial fluidAntiserumExosmosisTranspirationStomataSunlight
Parenchyma à Companion cells à Sieve Elements
Thoracic duct
Kill cells by inducing apoptosis
Iron concentration
Forces of attraction > forces of repulsion
C 2H 4AngularNone of thesePOH-PCl3Sigma bongUn hybrid orbitalsAll of aboveHClO3NH343Hydrogen bondingAB4. AB3EAngularBF3 , AlH3Trigonal pyramidalSigma bondPi bondPi bondsp2 hybridization1 sigma, 2 pipsp325 %,33 %,50Ethene
22
12/8/2024 23:20:58142 / 200haniyaYeslactealslactealsSpleenAll of theseLymph nodes8 percentSub clavian veinSingle efferent VesselInterstital fluidFiltration of urea
Artificial passive immunity
Artificial Passive Immunity
Two heavy and two light chain only
Globular
Variable region of both heavy and light chain
AntigenHIV infectionInnate immunityHeavy-light chainViralEpidermal cells67 percent90 metreRoot hairsActive transportDifferentially permeableCasparian stripsplasmodesmetalymphTwo litresLymphAntibodiesAntibodiesImmediateB – lymphocytesMesophyll cellsBoth A and BAbsence of cell wallCohesionTensionIonsZeroNegativeCompanion cellsAll of the aboveRootsPale yellowProteinOver 60 kilo metersExudation600 feet /hDistribution of sugarsSieve elementsT – cellsCompanionSieve poresTurgidityLeukocytesInterstitial fluidAntiserumExosmosisRespirationHydathodesGlucose
Mesophyll à Companion cells à Sieve Elements
Thoracic duct
Kill cells by generating a membrane attack complex
Interferons production
Forces of attraction > forces of repulsion
NH3AngularSp3FOH-PCl3Sigma bongUn hybrid orbitalsAll of aboveHClO3NH323Hydrogen bondingAB4. AB3EAngularBF3 , AlH3Trigonal pyramidalSigma bondPi bondPi bondsp2 hybridization1 sigma, 2 pisp2sp325 %,33 %,50Ethene
23
12/23/2024 11:11:13146 / 200Muhammad Zulkifal YeslactealslactealsTonsilsAll of theseLymph nodes1 percentSub clavian veinSingle efferent VesselBloodFiltration of ureaArtificial active immunity
Artificial Passive Immunity
Two heavy and two light chain only
Globular
Variable region of both heavy and light chain
AntigenHIV infectionInnate immunityHeavy-light chainFungalEpidermal cells98 percent50 metreRoot hairsBulk flowDifferentially permeableCasparian stripsplasmodesmetaplasmaThree litresBloodAntibodiesAntibodiesShort timedB – lymphocytesCasparian stripsBoth A and BAbsence of cell wallCohesionTensionRespirationOneNegativeCompanion cellsAll of the aboveStemColorlessProteinOver 600 metersExudation8m/hDistribution of sugarsCompanion cellsAntibodiesCompanionPlasmodesmataTurgidityLymphocytesBloodAntiserumExosmosisRespirationHydathodesATP
Mesophyll à Companion cells à Sieve Elements
Right lymphatic duct
Kill cells by inducing apoptosis
Iron concentration
Forces of attraction > forces of repulsion
NH3Angular3pzPOH-PCl3Sigma bongUn hybrid orbitalsAll of aboveHClO3NH343Hydrogen bondingAB4 , AB4AngularBF3 , AlH3Trigonal pyramidalSigma bondPi bondPi bondsp2 hybridization1 sigma, 2 pipsp325 %,33 %,50Ethene
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