Chapter 9:Transport in Plant and Human Body Posted by By admin February 28, 2026 Chapter 9: Transport in Plant and Human Body Chapter 9:Transport in Plant and Human Body 1 / 253 1. What is the function of the transport system in living beings? (a) Transporting food from source to body cells (b) Transporting excretory and harmful substances to excretory sites (c) Both A and B (d) None of A or B 🧠 Explanation: Transport system distributes nutrients and also removes waste. 🧠 Explanation: Transport system distributes nutrients and also removes waste. 2 / 253 2. In unicellular organisms, what is the common method of transport? (a) Diffusion (b) Excretion (c) Absorption (d) Transpiration 🧠 Explanation: In simple unicellular organisms, substances move in and out by diffusion. 🧠 Explanation: In simple unicellular organisms, substances move in and out by diffusion. 3 / 253 3. In which blood vessels does blood flow under the highest pressure? (a) Veins (b) Arteries (c) Capillaries (d) Valves 🧠 Explanation: Arteries carry blood from the heart under high pressure. 🧠 Explanation: Arteries carry blood from the heart under high pressure. 4 / 253 4. In humans, the transportation of food materials occurs through? (a) Xylem (b) Phloem (c) Roots (d) Stomata 🧠 Explanation: In plants, phloem transports food; xylem transports water. 🧠 Explanation: In plants, phloem transports food; xylem transports water. 5 / 253 5. Consider the following statements: 1. In plants, transport is performed by xylem and phloem. 2. Xylem transports water and minerals upward. Which of the above is/are correct? (a) Only 1 (b) Only 2 (c) Both 1 and 2 (d) Neither 1 nor 2 🧠 Explanation: Xylem and phloem are plant conducting tissues; xylem moves water upward, phloem moves food. 🧠 Explanation: Xylem and phloem are plant conducting tissues; xylem moves water upward, phloem moves food. 6 / 253 6. In plants, transport of food occurs through which tissue? (a) Xylem (b) Phloem (c) Cambium (d) None 🧠 Explanation: Phloem transports prepared food to different parts of the plant. 🧠 Explanation: Phloem transports prepared food to different parts of the plant. 7 / 253 7. In which group of plants are vascular tissues not found? (a) Thallophyta (b) Bryophyta (c) Pteridophyta (d) Both A and B 🧠 Explanation: Thallophytes and Bryophytes are non-vascular plants (no xylem/phloem). 🧠 Explanation: Thallophytes and Bryophytes are non-vascular plants (no xylem/phloem). 8 / 253 8. Which process is responsible for the uptake of water in plants? (a) Transpiration (b) Diffusion (c) Conduction (d) Evaporation 🧠 Explanation: Transpiration pull helps draw water from roots to leaves. 🧠 Explanation: Transpiration pull helps draw water from roots to leaves. 9 / 253 9. Movement of food in plants from leaves to storage organs is called? (a) Transpiration (b) Translocation (c) Guttation (d) Excretion 🧠 Explanation: Translocation refers to the movement of food via phloem. 🧠 Explanation: Translocation refers to the movement of food via phloem. 10 / 253 10. In animals, the direction of water transport is? (a) From inside to outside of the body (b) From outside to inside of the body (c) Both directions (d) Not applicable 🧠 Explanation: Water enters and leaves the animal body depending on conditions—via osmosis, excretion, etc. 🧠 Explanation: Water enters and leaves the animal body depending on conditions—via osmosis, excretion, etc. 11 / 253 11. What is the direction of food transport in phloem? (a) From leaves to storage tissues (b) From leaves to growing tissues (c) Both directions (d) None 🧠 Explanation: Food moves in both directions in phloem—to storage and growing regions. 🧠 Explanation: Food moves in both directions in phloem—to storage and growing regions. 12 / 253 12. Consider the following statements about plant transport system "phloem": 1. It is made of living cells. 2. It transports food made in leaves. 3. It transports food upward and downward. Which of the above is/are correct? (a) Only 1 (b) 1 and 2 (c) Only 2 (d) 1, 2, and 3 🧠 Explanation: All are correct: Phloem has living cells Transports food Bidirectional movement 🧠 Explanation: All are correct: Phloem has living cells Transports food Bidirectional movement 13 / 253 13. Which component of soil helps most in water absorption? (a) Gravel (b) Clay (c) Loam (d) Sandy soil 🧠 Explanation: Clay particles have the smallest pores, so they retain and absorb more water. 🧠 Explanation: Clay particles have the smallest pores, so they retain and absorb more water. 14 / 253 14. Which types of water in soil are absorbed by roots? (a) Gravitational water (b) Hygroscopic water (c) Capillary water (d) All of these 🧠 Explanation: Capillary water is held in small pores and is available to plants. 🧠 Explanation: Capillary water is held in small pores and is available to plants. 15 / 253 15. Water that enters roots by diffusion is called? (a) Passive absorption (b) Active absorption (c) Root pressure (d) Transpiration pull 🧠 Explanation: When water enters without energy, it's called passive absorption. 🧠 Explanation: When water enters without energy, it's called passive absorption. 16 / 253 16. Roots absorb water efficiently when— (a) Soil has a high concentration of salts (b) Plant is photosynthesizing actively (c) Soil particles have high surface tension (d) Soil water potential is high 🧠 Explanation: During photosynthesis, water is pulled upward, encouraging absorption. 🧠 Explanation: During photosynthesis, water is pulled upward, encouraging absorption. 17 / 253 17. Consider the following: 1. Transport in plants is done by xylem and phloem. 2. Water-transporting tissues play no role in transpiration. Which statements are correct? (a) Only 1 (b) Only 2 (c) Both 1 and 2 (d) Neither 1 nor 2 🧠 Explanation: Xylem does help in transpiration (by upward movement), so only 1 is correct. 🧠 Explanation: Xylem does help in transpiration (by upward movement), so only 1 is correct. 18 / 253 18. Transport of minerals and nutrients from one part of the plant to another occurs by— (a) Diffusion (b) Active transport (c) Osmosis (d) None of these 🧠 Explanation: Nutrients move against the concentration gradient, requiring energy. 🧠 Explanation: Nutrients move against the concentration gradient, requiring energy. 19 / 253 19. How does water move through xylem vessels in plants? (a) Diffusion (b) Active transport (c) Osmosis (d) None of these 🧠 Explanation: Water enters root cells via osmosis and moves upward through xylem by cohesion-tension. 🧠 Explanation: Water enters root cells via osmosis and moves upward through xylem by cohesion-tension. 20 / 253 20. Cut flowers remain fresh for a long time in water because— (a) Their water absorption is active (b) Xylem remains functional (c) Their stomata remain closed (d) They continue transpiration 🧠 Explanation: Xylem channels continue to transport water, keeping them fresh. 🧠 Explanation: Xylem channels continue to transport water, keeping them fresh. 21 / 253 21. Water and minerals reach leaves from roots through— (a) Phloem (b) Xylem (c) Vessels (d) Cortex 🧠 Explanation: Xylem transports water and minerals upward in plants. 🧠 Explanation: Xylem transports water and minerals upward in plants. 22 / 253 22. What is the process of water vapor release from plant surfaces called? (a) Evaporation (b) Transpiration (c) Respiration (d) Excretion 🧠 Explanation: Transpiration is the loss of water vapor through stomata. 🧠 Explanation: Transpiration is the loss of water vapor through stomata. 23 / 253 23. A tree absorbs water equal to how many times its own weight during its lifetime? (a) 2x (b) 10x (c) 50x (d) 100x 🧠 Explanation: A tree can absorb up to 100 times its weight in water during its lifetime. 🧠 Explanation: A tree can absorb up to 100 times its weight in water during its lifetime. 24 / 253 24. The main tissue involved in plant transpiration is? (a) Xylem (b) Phloem (c) Cork (d) Lenticels 🧠 Explanation: Xylem is responsible for transporting water which is lost via transpiration. 🧠 Explanation: Xylem is responsible for transporting water which is lost via transpiration. 25 / 253 25. Most transpiration in plants occurs through— (a) Lenticels (b) Stomata (c) Cuticle (d) Epidermis 🧠 Explanation: Stomata on leaf surfaces are the main site for transpiration. 🧠 Explanation: Stomata on leaf surfaces are the main site for transpiration. 26 / 253 26. Which of the following is not an important factor for transpiration? (a) Light (b) Availability of water (c) Wind speed (d) Soil type 🧠 Explanation: Soil type affects water availability but is not directly involved in transpiration rate. 🧠 Explanation: Soil type affects water availability but is not directly involved in transpiration rate. 27 / 253 27. What causes the opening and closing of stomata? (a) Sunlight (b) Roots (c) Guard cells (d) Chloroplasts 🧠 Explanation: Guard cells control the opening and closing of stomata based on water and light. 🧠 Explanation: Guard cells control the opening and closing of stomata based on water and light. 28 / 253 28. When does transpiration stop in desert plants? (a) Morning (b) Evening (c) Never stops (d) Noon 🧠 Explanation: Desert plants reduce or stop transpiration in the early hours to conserve water. 🧠 Explanation: Desert plants reduce or stop transpiration in the early hours to conserve water. 29 / 253 29. Why is transpiration important for plants? (a) Maintains nutrient concentration (b) Helps in exchange of gases (c) Assists in water and mineral transport (d) Converts water into food 🧠 Explanation: Transpiration pull helps draw water and minerals up the plant from the roots. 🧠 Explanation: Transpiration pull helps draw water and minerals up the plant from the roots. 30 / 253 30. In which of the following plants is no color found? (a) Tapeworm (b) Mushroom (c) Spirogyra (d) Both A and B 🧠 Explanation: Tapeworm (a parasite) and mushrooms (fungi) lack chlorophyll; hence, no color. 🧠 Explanation: Tapeworm (a parasite) and mushrooms (fungi) lack chlorophyll; hence, no color. 31 / 253 31. The transpiration process in plants helps reduce which of the following? (a) Evaporation (b) Excessive heat (c) Respiration (d) Water absorption 🧠 Explanation: Transpiration cools the plant by evaporating water, reducing temperature. 🧠 Explanation: Transpiration cools the plant by evaporating water, reducing temperature. 32 / 253 32. What percentage of absorbed water is used by plants? (a) 10% (b) 50% (c) 0% (d) 100% 🧠 Explanation: Almost all absorbed water is lost in transpiration; only ~1% is used by the plant. 🧠 Explanation: Almost all absorbed water is lost in transpiration; only ~1% is used by the plant. 33 / 253 33–34. Consider the following statements: 1. In plants, transpiration helps in the regulation of water. 2. Water and mineral transport in plants involves transpiration. Which is/are correct? (c) Both 1 and 2 🧠 Explanation: Transpiration regulates water balance and causes a pull that aids in mineral transport. 34 / 253 35. From which tissue are root hairs formed? (a) Root cap (b) Hypodermis (c) Cortex (d) Outer epidermal cells 🧠 Explanation: Root hairs are extensions of epidermal cells, increasing surface area for absorption. 🧠 Explanation: Root hairs are extensions of epidermal cells, increasing surface area for absorption. 35 / 253 36. When is root pressure highest? (a) When transpiration and absorption are both high (b) When transpiration is high and absorption is low (c) When absorption is high and transpiration is low (d) When both are very high 🧠 Explanation: Root pressure builds up when absorption continues, but transpiration is low (e.g., at night). 🧠 Explanation: Root pressure builds up when absorption continues, but transpiration is low (e.g., at night). 36 / 253 37. In what form do plants absorb minerals from soil? (a) Salts (b) Ions (c) Molecules (d) Nutrients 🧠 Explanation: Plants absorb minerals in ionic form, such as nitrate (NO₃⁻) or potassium (K⁺). 🧠 Explanation: Plants absorb minerals in ionic form, such as nitrate (NO₃⁻) or potassium (K⁺). 37 / 253 38. Where do plants get most of their nutrients from? (a) Air (b) Soil (c) Water (d) Sunlight 🧠 Explanation: Minerals and nutrients required for growth are primarily absorbed from the soil. 🧠 Explanation: Minerals and nutrients required for growth are primarily absorbed from the soil. 38 / 253 39. Which nutrient is needed for chlorophyll formation? (a) Sulfur (b) Boron (c) Iron (d) Calcium 🧠 Explanation: Iron is essential for the synthesis of chlorophyll in plants. 🧠 Explanation: Iron is essential for the synthesis of chlorophyll in plants. 39 / 253 40. Consider the following statements: 1. Transport of water and minerals in plants does not require energy. 2. Movement of food in plants uses energy. Which is/are correct? (d) Both 1 and 2 (d) Both 1 and 2 🧠 Explanation: Xylem (water/minerals) transport is passive. Phloem (food) transport is active and needs ATP. 40 / 253 41. Which of the following is true about transpiration? (a) It involves water loss from leaves through evaporation 🧠 Explanation: Transpiration involves loss of water vapor from aerial parts of the plant via stomata. 41 / 253 43. Which of the following is NOT a micronutrient for plants? (a) Iron (b) Phosphorus (c) Manganese (d) Zinc 🧠 Explanation: Phosphorus is a macronutrient required in large amounts. 🧠 Explanation: Phosphorus is a macronutrient required in large amounts. 42 / 253 42. Which element helps keep cells turgid (swollen)? (a) Zinc (b) Phosphorus (c) Potassium (d) Magnesium 🧠 Explanation: Potassium ions help maintain osmotic balance, keeping cells turgid. 🧠 Explanation: Potassium ions help maintain osmotic balance, keeping cells turgid. 43 / 253 44. What regulates the opening and closing of stomata? (a) Sodium (b) Potassium (c) Iron (d) Phosphorus 🧠 Explanation: Potassium ions move in/out of guard cells, causing stomatal opening/closing. 🧠 Explanation: Potassium ions move in/out of guard cells, causing stomatal opening/closing. 44 / 253 45. Transpiration pull is related to— (a) Passive absorption (b) Living cells (c) Root pressure (d) Active absorption 🧠 Explanation: Transpiration pull creates a suction force, aiding passive absorption of water. 🧠 Explanation: Transpiration pull creates a suction force, aiding passive absorption of water. 45 / 253 46. What is the central part of the root and stem of plants where xylem and phloem tissues are arranged in a special manner called? (a) Stele (b) Hypodermis (c) Cortex (d) Endodermis 🧠 Explanation: The stele is the central cylinder containing xylem, phloem, pericycle, and sometimes pith. 🧠 Explanation: The stele is the central cylinder containing xylem, phloem, pericycle, and sometimes pith. 46 / 253 47. The loss of water in liquid form as droplets from the edges of leaves is known as— (a) Water loss (b) Guttation (c) Transpiration (d) Passive absorption 🧠 Explanation: Guttation is the exudation of liquid water from the tips or edges of leaves through hydathodes. 🧠 Explanation: Guttation is the exudation of liquid water from the tips or edges of leaves through hydathodes. 47 / 253 48. What is the major role of root pressure and guttation in plants? (a) Photosynthesis (b) Passive absorption (c) Flower development (d) None of these 🧠 Explanation: Root pressure drives passive upward movement of water, especially at night. 🧠 Explanation: Root pressure drives passive upward movement of water, especially at night. 48 / 253 49. Which part of the plant helps in guttation? (a) Root hair (b) Leaf surface (c) Hydathodes (d) Xylem vessel 🧠 Explanation: Hydathodes are specialized structures at leaf margins responsible for guttation. 🧠 Explanation: Hydathodes are specialized structures at leaf margins responsible for guttation. 49 / 253 50. When the amount of water absorbed exceeds the transpiration rate, the plant becomes swollen. What is this condition called? (a) Turgor pressure (b) Positive pressure (c) Water saturation (d) Excessive hydration 🧠 Explanation: Turgor pressure is the pressure of water inside the cell pressing against the cell wall. 🧠 Explanation: Turgor pressure is the pressure of water inside the cell pressing against the cell wall. 50 / 253 51. Which element helps in forming ATP during photosynthesis? (a) Iron (b) Zinc (c) Phosphorus (d) Copper 🧠 Explanation: Phosphorus is crucial for the synthesis of ATP and nucleic acids. 🧠 Explanation: Phosphorus is crucial for the synthesis of ATP and nucleic acids. 51 / 253 52. Which instrument is used to measure transpiration? (a) Hygrometer (b) Potometer (c) Anemometer (d) Respirometer 🧠 Explanation: A potometer measures the rate of water uptake, which approximates transpiration. 🧠 Explanation: A potometer measures the rate of water uptake, which approximates transpiration. 52 / 253 53. In which part of the plant does transpiration primarily occur? (a) Root (b) Stem (c) Leaf (d) Branch 🧠 Explanation: Most transpiration takes place through stomata in leaves. 🧠 Explanation: Most transpiration takes place through stomata in leaves. 53 / 253 54. In which condition does transpiration increase? (a) When air is dry (b) When soil moisture is high (c) When temperature is low (d) When humidity is high 🧠 Explanation: Dry air increases the water vapor gradient, speeding up transpiration. 🧠 Explanation: Dry air increases the water vapor gradient, speeding up transpiration. 54 / 253 56. Which instrument measures breathing rate? (a) Potometer (b) Anemometer (c) Respirometer (d) Thermometer 🧠 Explanation: Respirometers measure the rate of respiration by tracking gas exchange. 🧠 Explanation: Respirometers measure the rate of respiration by tracking gas exchange. 55 / 253 55. What is the main function of leaves? (a) Photosynthesis and respiration (b) Respiration and conduction (c) Photosynthesis and transpiration (d) Photosynthesis and guttation 🧠 Explanation: Leaves mainly conduct photosynthesis and transpiration. 🧠 Explanation: Leaves mainly conduct photosynthesis and transpiration. 56 / 253 57. Which element is needed for both photosynthesis and guttation? (a) Potassium (b) Magnesium (c) Zinc (d) Manganese 🧠 Explanation: Magnesium is the central element in chlorophyll and important in enzyme activation. 🧠 Explanation: Magnesium is the central element in chlorophyll and important in enzyme activation. 57 / 253 58. In which direction does food transport occur in phloem? (a) From root to leaf (b) From leaf to root (c) From soil to leaf (d) From upper leaves to root tips 🧠 Explanation: Food moves bidirectionally in phloem, but mostly from source (leaf) to sink (root). 🧠 Explanation: Food moves bidirectionally in phloem, but mostly from source (leaf) to sink (root). 58 / 253 59. What is the correct example of imbibition? (a) Water leaving leaves due to transpiration (b) Water entering root hairs from soil (c) Seeds absorbing water and swelling (d) Salt moving in xylem 🧠 Explanation: Imbibition is the absorption of water by dry solids (like seeds), causing them to swell. 🧠 Explanation: Imbibition is the absorption of water by dry solids (like seeds), causing them to swell. 59 / 253 60. How many types of plastids are found in plants? (a) 2 (b) 3 (c) 4 (d) Different in different species 🧠 Explanation: Three main types of plastids: Chloroplasts (green), Chromoplasts (colored), Leucoplasts (colorless). 🧠 Explanation: Three main types of plastids: Chloroplasts (green), Chromoplasts (colored), Leucoplasts (colorless). 60 / 253 61. During hot summer days, water drops appear at the tips of leaves in the morning. What is this phenomenon? (a) Osmosis (b) Transpiration (c) Root pressure (d) Guttation 🧠 Explanation: Guttation is seen in the morning when water is exuded due to root pressure. 🧠 Explanation: Guttation is seen in the morning when water is exuded due to root pressure. 61 / 253 62. Consider the following statements: 1. Movement of water in xylem is upward only. 2. Movement of food in phloem can be both upward and downward. Which statement(s) is/are correct? (d) Both 1 and 2 🧠 Explanation: Xylem conducts water upward only. Phloem can transport food in both directions depending on source and sink. 62 / 253 63. Who discovered the circulatory system? (a) William Harvey (b) Karl Landsteiner (c) C. K. Alexander (d) Leonardo da Vinci 🧠 Explanation: William Harvey discovered blood circulation in 1628. 🧠 Explanation: William Harvey discovered blood circulation in 1628. 63 / 253 65. What is the average weight of a human heart? (a) 200 grams (b) 300 grams (c) 400 grams (d) 500 grams 🧠 Explanation: On average, male hearts weigh around 300 g, females around 250 g. 🧠 Explanation: On average, male hearts weigh around 300 g, females around 250 g. 64 / 253 64. Which of the following is NOT true about the human heart? (a) It has four chambers (b) It is the heaviest organ in the body (c) Its average weight is 1.5 to 2 kg (d) It keeps pumping blood throughout life 🧠 Explanation: Average human heart weight is 250–350 grams, not 1.5 to 2 kg. 🧠 Explanation: Average human heart weight is 250–350 grams, not 1.5 to 2 kg. 65 / 253 66. What is the name of the thin membrane covering the outer surface of the heart? (a) Pleura (b) Pericardium (c) Peritoneum (d) Diaphragm 🧠 Explanation: Pericardium is a protective membrane that surrounds the heart. 🧠 Explanation: Pericardium is a protective membrane that surrounds the heart. 66 / 253 67. Consider the following statements: 1. The upper part of the heart receives oxygenated blood. 2. The lower part of the heart pumps out blood. Which is/are correct? (d) Both 1 and 2 🧠 Explanation: Atria (upper chambers) receive blood. Ventricles (lower chambers) pump blood. 67 / 253 69. Where is the tricuspid valve found? (a) Between right atrium and right ventricle (b) Between right atrium and left atrium (c) Between both atria (d) Between both ventricles 🧠 Explanation: The tricuspid valve separates right atrium and right ventricle. 🧠 Explanation: The tricuspid valve separates right atrium and right ventricle. 68 / 253 68. What is the muscular flap-like structure between atria and ventricles called? (a) Septum (b) Valve (c) Node (d) Cord 🧠 Explanation: Valves regulate blood flow direction between heart chambers. 🧠 Explanation: Valves regulate blood flow direction between heart chambers. 69 / 253 70. What is the function of the heart valves? (a) Allow blood flow in both directions (b) Prevent blood from flowing back (c) Only allow outward blood flow (d) None of these 🧠 Explanation: Valves ensure unidirectional blood flow and prevent backflow. 🧠 Explanation: Valves ensure unidirectional blood flow and prevent backflow. 70 / 253 71. Consider the following statements: 1. Left atrium receives oxygenated blood. 2. Right atrium receives deoxygenated blood. Which is/are correct? (d) Both 1 and 2 🧠 Explanation: Left atrium gets oxygenated blood from lungs. Right atrium gets deoxygenated blood from body. 71 / 253 72. Consider the following statements: 1. Veins carry blood from organs to the heart. 2. Veins with deoxygenated blood are called systemic veins. 3. The pulmonary vein is the only vein carrying oxygenated blood. Which are correct? (d) All 1, 2 and 3 🧠 Explanation: All veins carry blood to the heart. Most veins are deoxygenated (systemic). Pulmonary vein carries oxygenated blood from lungs. 72 / 253 73. What is the average human heart rate (beats per minute)? (a) 50–55 (b) 72–75 (c) 120–125 (d) 230–240 🧠 Explanation: Normal resting heart rate is about 72 bpm. 🧠 Explanation: Normal resting heart rate is about 72 bpm. 73 / 253 74. Where are semilunar valves found? (a) Between ventricles and pulmonary artery (b) Between ventricles and aorta (c) Both (a) and (b) (d) Between atria and ventricles 🧠 Explanation: Semilunar valves are present at the aorta and pulmonary artery exit. 🧠 Explanation: Semilunar valves are present at the aorta and pulmonary artery exit. 74 / 253 75. Where does the pulmonary arch arise from? (a) Right atrium (b) Right ventricle (c) Left atrium (d) Left ventricle 🧠 Explanation: Pulmonary arch (artery) arises from the right ventricle. 🧠 Explanation: Pulmonary arch (artery) arises from the right ventricle. 75 / 253 76. Where does the aorta arise from? (a) Right atrium (b) Right ventricle (c) Left atrium (d) Left ventricle 🧠 Explanation: The aorta begins from the left ventricle, carrying oxygenated blood to the body. 🧠 Explanation: The aorta begins from the left ventricle, carrying oxygenated blood to the body. 76 / 253 77. What is the node located between the right atrium and the right ventricle, controlling heartbeat? (a) Sinoatrial node (b) Sinoatrial chamber (c) Atrioventricular node (d) Cardiac cavity 🧠 Explanation: The AV node relays impulses from the SA node to the ventricles. 🧠 Explanation: The AV node relays impulses from the SA node to the ventricles. 77 / 253 78. Which heart chamber has the thickest wall? (a) Right atrium (b) Left atrium (c) Right ventricle (d) Left ventricle 🧠 Explanation: The left ventricle has the thickest muscular wall because it pumps blood to the entire body. 🧠 Explanation: The left ventricle has the thickest muscular wall because it pumps blood to the entire body. 78 / 253 79. The superior and inferior vena cava open into which part of the heart? (a) Right atrium (b) Left atrium (c) Right ventricle (d) Left ventricle 🧠 Explanation: Pre-caval and post-caval veins (vena cava) carry deoxygenated blood to the right atrium. 🧠 Explanation: Pre-caval and post-caval veins (vena cava) carry deoxygenated blood to the right atrium. 79 / 253 80. What is the normal blood pressure of a healthy person? (a) 120/80 mmHg (b) 160/95 mmHg (c) 130/90 mmHg (d) 80/120 mmHg 🧠 Explanation: 120 mmHg systolic / 80 mmHg diastolic is normal. 🧠 Explanation: 120 mmHg systolic / 80 mmHg diastolic is normal. 80 / 253 81. Blood pressure is— (a) Pressure of blood in arteries and their major branches (b) Pressure in veins and their major branches (c) Both A and B (d) None of these 🧠 Explanation: Blood pressure refers to pressure in arteries, not veins. 🧠 Explanation: Blood pressure refers to pressure in arteries, not veins. 81 / 253 82. What is pulse pressure? (a) Difference between systolic and diastolic pressure (b) Pressure in pulmonary artery (c) Pressure in capillaries (d) None of these 🧠 Explanation: Pulse pressure = Systolic - Diastolic 🧠 Explanation: Pulse pressure = Systolic - Diastolic 82 / 253 83. Consider the following statements: 1. Blood pressure in arteries is higher than in veins. 2. Pressure in arteries increases more with heartbeat. Which is/are correct? (c) Both 1 and 2 🧠 Explanation: Arteries have higher and pulsating pressure than veins. 83 / 253 84. During systole, what happens to blood pressure? (a) Increases (b) Decreases (c) Rises and falls (d) Remains constant 🧠 Explanation: Systole = contraction, so pressure increases. 🧠 Explanation: Systole = contraction, so pressure increases. 84 / 253 85. During diastole, blood pressure— (a) Increases (b) Decreases (c) Rises and falls (d) Remains the same 🧠 Explanation: Diastole = relaxation, so pressure drops. 🧠 Explanation: Diastole = relaxation, so pressure drops. 85 / 253 86. Where is pulse measured? (a) Neck (b) Wrist (c) Chest (d) Head 🧠 Explanation: Pulse is typically felt at the radial artery on the wrist. 🧠 Explanation: Pulse is typically felt at the radial artery on the wrist. 86 / 253 87. What is the pressure caused by heart contraction called? (a) Systolic pressure (b) Diastolic pressure (c) Pulse pressure (d) None of these 🧠 Explanation: Systolic pressure is the peak pressure during heart contraction. 🧠 Explanation: Systolic pressure is the peak pressure during heart contraction. 87 / 253 88. How many atrioventricular valves are present in the human heart? (a) 1 (b) 2 (c) 3 (d) 4 🧠 Explanation: Two valves — tricuspid (right) and bicuspid/mitral (left). 🧠 Explanation: Two valves — tricuspid (right) and bicuspid/mitral (left). 88 / 253 89. How long does it take for blood to complete one circulation? (a) 1 second (b) 1 minute (c) 1.5 minutes (d) 0.5 second 🧠 Explanation: Complete circulation of blood takes about 1 minute. 🧠 Explanation: Complete circulation of blood takes about 1 minute. 89 / 253 90. Which instrument is used to measure blood pressure? (a) Hemometer (b) Sphygmomanometer (c) Pedometer (d) Electrocardiogram 🧠 Explanation: A sphygmomanometer measures blood pressure. 🧠 Explanation: A sphygmomanometer measures blood pressure. 90 / 253 91. Which instrument is used to detect heart diseases? (a) Sphygmomanometer (b) Electrocardiogram (c) Pedometer (d) Spirometer 🧠 Explanation: An ECG tracks heart’s electrical activity. 🧠 Explanation: An ECG tracks heart’s electrical activity. 91 / 253 92. ECG is used to measure the function of which organ? (a) Heart (b) Lungs (c) Kidney (d) Liver 🧠 Explanation: Electrocardiography is used for detecting cardiac activity. 🧠 Explanation: Electrocardiography is used for detecting cardiac activity. 92 / 253 93. Which process allows oxygen to diffuse from alveoli into the blood and CO₂ to leave? (a) Filtration (b) Osmosis (c) Diffusion (d) Respiration 🧠 Explanation: Diffusion allows gas exchange in alveoli. 🧠 Explanation: Diffusion allows gas exchange in alveoli. 93 / 253 94. What is the normal systolic blood pressure? (a) 120 mmHg (b) 80 mmHg (c) 140 mmHg (d) 180 mmHg 🧠 Explanation: Normal systolic pressure is around 120 mmHg. 🧠 Explanation: Normal systolic pressure is around 120 mmHg. 94 / 253 96. What is the function of the heart in the human body? (a) To regulate body temperature (b) To supply oxygenated blood (c) No role (d) Remove waste 🧠 Explanation: Heart pumps oxygen-rich blood to the entire body. 🧠 Explanation: Heart pumps oxygen-rich blood to the entire body. 95 / 253 95. Jarvik-7 is— (a) Artificial leg (b) Pacemaker (c) Artificial heart (d) Artificial eye 🧠 Explanation: Jarvik-7 was the first permanent artificial heart. 🧠 Explanation: Jarvik-7 was the first permanent artificial heart. 96 / 253 97. In an average lifetime, how many times does the human heart beat? (c) ~2.5 billion times 🧠 Explanation: Assuming 72 bpm × 60 × 24 × 365 × 70 years ≈ 2.5 billion beats. 97 / 253 98. Which organ is responsible for producing heartbeat in humans? (a) Small intestine (b) Large intestine (c) Kidney (d) Heart 🧠 Explanation: The heart itself generates and regulates the heartbeat via the pacemaker (SA node). 🧠 Explanation: The heart itself generates and regulates the heartbeat via the pacemaker (SA node). 98 / 253 99. Which statement is correct about the sound of the heartbeat? (a) The sound is due to contraction of atrial and ventricular walls. (b) The sound is due to the closing of valves with ventricular contraction. (c) The sound is due to the opening of valves during ventricular contraction. (d) None of these. 🧠 Explanation: The "lub-dub" sound of the heart is due to valve closure, especially during ventricular contraction and relaxation. 🧠 Explanation: The "lub-dub" sound of the heart is due to valve closure, especially during ventricular contraction and relaxation. 99 / 253 100. Which device can be used to hear the heartbeat of a fetus? (a) Sphygmomanometer (b) Manometer (c) Electrocardiogram (d) Stethoscope 🧠 Explanation: A stethoscope is used to listen to heartbeat sounds, including fetal heartbeat. 🧠 Explanation: A stethoscope is used to listen to heartbeat sounds, including fetal heartbeat. 100 / 253 101. What is the name of the process by which blood flows once through the heart and then to the rest of the body? (a) Circulation (b) Heart rhythm (c) Cardiac cycle (d) Double circulation 🧠 Explanation: Humans have double circulation, where blood passes through the heart twice during one complete cycle (pulmonary and systemic). 🧠 Explanation: Humans have double circulation, where blood passes through the heart twice during one complete cycle (pulmonary and systemic). 101 / 253 102. During double circulation, how many times does blood pass through the heart in one complete cycle? (a) 1 time (b) 2 times (c) 3 times (d) 4 times 🧠 Explanation: In double circulation, blood enters the heart twice per cycle (once after lungs, once after body). 🧠 Explanation: In double circulation, blood enters the heart twice per cycle (once after lungs, once after body). 102 / 253 103. How many atria are present in the heart? (a) 1 atrium (b) 2 atria (c) 3 atria (d) 4 atria 🧠 Explanation: Human heart has two atria: left and right atrium. 🧠 Explanation: Human heart has two atria: left and right atrium. 103 / 253 104. What is the central pumping organ of the human body? (a) Kidney (b) Brain (c) Heart (d) Lungs 🧠 Explanation: The heart is the central pumping organ, maintaining blood circulation. 🧠 Explanation: The heart is the central pumping organ, maintaining blood circulation. 104 / 253 105. What is the other name for Pacemaker? (a) S-A node (b) A-V node (c) His bundle (d) Purkinje fibers 🧠 Explanation: The SA node (Sinoatrial node) is called the natural pacemaker of the heart. 🧠 Explanation: The SA node (Sinoatrial node) is called the natural pacemaker of the heart. 105 / 253 106. The heartbeat is controlled by— (a) SA node 🧠 Explanation: The SA node generates impulses that regulate the heartbeat rhythm. 106 / 253 107. The pacemaker system includes— (a) SA node (b) AV node (c) Bundle of His (d) Purkinje fibers (e) All of these 🧠 Explanation: The cardiac conduction system includes the SA node, AV node, bundle of His, and Purkinje fibers. 🧠 Explanation: The cardiac conduction system includes the SA node, AV node, bundle of His, and Purkinje fibers. 107 / 253 108. SA node is made of— (a) Muscular tissue (b) Nervous tissue (c) Specialized muscle tissue (d) Fatty tissue 🧠 Explanation: SA node consists of modified muscle fibers that generate electrical impulses. 🧠 Explanation: SA node consists of modified muscle fibers that generate electrical impulses. 108 / 253 109. Which is the correct sequence of electrical impulse conduction from SA node? (a) AV node → Bundle of His → Purkinje fibers (b) AV node → Purkinje fibers → Bundle of His (c) Purkinje fibers → Bundle of His → AV node (d) Bundle of His → Purkinje fibers → AV node 🧠 Explanation: The correct pathway: SA node → AV node → Bundle of His → Purkinje fibers 🧠 Explanation: The correct pathway: SA node → AV node → Bundle of His → Purkinje fibers 109 / 253 111. Which of the following statements is correct? (a) Blood circulates in one direction. (b) Human heart has double circulation. (c) Blood goes from heart to lungs and back, and also to body and back. (d) All of the above 🧠 Explanation: These all describe the features of human circulatory system. 🧠 Explanation: These all describe the features of human circulatory system. 110 / 253 110. Which statements are correct? 1. The SA node regulates the heartbeat. 2. The SA node generates impulses that control the cardiac cycle. 3. SA node initiates and spreads electrical signals. (d) 1, 2, and 3 🧠 Explanation: All three statements correctly describe the function of SA node. 111 / 253 112. What is the function of various heart valves? (a) Control direction of blood flow (b) Control heartbeat rate (c) Prevent oxygen mixing (d) Prevent blood from entering lungs 🧠 Explanation: Heart valves ensure unidirectional blood flow, preventing backflow. 🧠 Explanation: Heart valves ensure unidirectional blood flow, preventing backflow. 112 / 253 113. Consider the following statements: 1. A decrease in pH slows down the heartbeat. 2. An increase in pH accelerates the heartbeat. Which of the above is/are correct? (c) Both 1 and 2 🧠 Explanation: The heart rate is influenced by blood pH. Low pH (acidic) decreases heartbeat; high pH (alkaline) increases it 113 / 253 115. In which direction does blood flow in veins? (a) From body organs to the heart (b) From heart to body organs (c) Inside the heart (d) From one part to another not involving heart 🧠 Explanation: Veins carry deoxygenated blood back to the heart from body parts. 🧠 Explanation: Veins carry deoxygenated blood back to the heart from body parts. 114 / 253 114. In which direction does blood flow in arteries? (a) From body organs to the heart (b) From heart to body organs (c) Inside the heart (d) From one part to another not involving heart 🧠 Explanation: Arteries carry oxygenated blood away from the heart to body tissues. 🧠 Explanation: Arteries carry oxygenated blood away from the heart to body tissues. 115 / 253 116. Where do portal veins carry blood? (a) From one body organ to another (b) From body to heart (c) From heart to organs (d) From one part to another not involving heart 🧠 Explanation: Portal veins carry blood between two capillary networks, such as intestine to liver. 🧠 Explanation: Portal veins carry blood between two capillary networks, such as intestine to liver. 116 / 253 117. Which controls the heartbeat? (a) Brain (b) Spinal cord (c) Heart's own system (d) All of the above 🧠 Explanation: The heart has its own conduction system (SA node, AV node, etc.) that controls heartbeat. 🧠 Explanation: The heart has its own conduction system (SA node, AV node, etc.) that controls heartbeat. 117 / 253 118. Which blood vessels carry oxygenated blood? (a) Pulmonary artery (b) Aorta (c) Veins (d) Pulmonary vein 🧠 Explanation: The aorta carries oxygenated blood from the left ventricle to the body. 🧠 Explanation: The aorta carries oxygenated blood from the left ventricle to the body. 118 / 253 119. Where does the pulmonary vein open into the heart? (c) Left atrium 🧠 Explanation: The pulmonary vein carries oxygenated blood from the lungs to the left atrium. 119 / 253 120. In which atrium does the vena cava open? (a) Right atrium 🧠 Explanation: Superior and inferior vena cava drain deoxygenated blood into the right atrium. 120 / 253 121. Which is NOT correct regarding arteries? (a) Arteries carry pure (oxygenated) blood (b) Arteries have thick muscular walls (c) Arteries have valves to prevent backflow (d) Arteries carry blood at high pressure 🧠 Explanation: Veins have valves; arteries do not. 🧠 Explanation: Veins have valves; arteries do not. 121 / 253 122. Consider the statements: 1. Pulmonary artery carries impure blood from heart to lungs. 2. Pulmonary vein carries pure blood from lungs to heart. Which is/are correct? (c) Both 1 and 2 🧠 Explanation: Pulmonary artery is the only artery carrying deoxygenated blood, and pulmonary vein the only vein carrying oxygenated blood. 122 / 253 123. Where is “blood cancer” produced? (a) Bone marrow 🧠 Explanation: Leukemia (blood cancer) originates in the bone marrow, where blood cells are produced. 123 / 253 124. Blood clotting is caused by— (a) Platelets (b) White blood cells (c) Red blood cells (d) Plasma 🧠 Explanation: Platelets (thrombocytes) help in blood clotting. 🧠 Explanation: Platelets (thrombocytes) help in blood clotting. 124 / 253 125. Where does pulmonary artery originate? (b) Right ventricle 🧠 Explanation: Pulmonary artery arises from the right ventricle and carries blood to the lungs. 125 / 253 126. Which blood vessel has thin walls and no valves? (b) Capillaries 🧠 Explanation: Capillaries are the thinnest vessels, allowing exchange of gases and nutrients. They lack valves. 126 / 253 127. Hepatic portal vein transports digested nutrients from intestines to— (c) Liver 🧠 Explanation: Hepatic portal vein carries nutrient-rich blood from intestines to the liver for processing. 127 / 253 128. What is the vessel that carries blood from body parts to the heart called? (a) Artery (b) Vein (c) Capillary (d) Pulmonary artery 🧠 Explanation: Veins carry deoxygenated blood back to the heart. 🧠 Explanation: Veins carry deoxygenated blood back to the heart. 128 / 253 129. What is the term for the process of blood being pumped out of the heart to the body through the aorta? (d) Systole 🧠 Explanation: Systole is the contraction phase of the heart where blood is pumped into the arteries. 129 / 253 130. Consider the following statements: 1. Pulmonary vein carries oxygenated blood from lungs to the heart. 2. Pulmonary artery carries deoxygenated blood from heart to the lungs. Which of the above is/are correct? (a) Only 1 (b) Only 2 (c) Both 1 and 2 (d) Neither 1 nor 2 👉 Explanation: Pulmonary vein brings oxygen-rich blood from lungs to heart, and pulmonary artery takes oxygen-poor blood from heart to lungs. 👉 Explanation: Pulmonary vein brings oxygen-rich blood from lungs to heart, and pulmonary artery takes oxygen-poor blood from heart to lungs. 130 / 253 131. What is the outermost layer of the heart called? (a) Pericardium ✅ (b) Myocardium (c) Epicardium (d) Endocardium 👉 Explanation: The pericardium is a double-walled sac that encloses the heart. 👉 Explanation: The pericardium is a double-walled sac that encloses the heart. 131 / 253 132. Which is the type of tissue that forms blood vessels? (a) Muscular tissue (b) Connective tissue (c) Epithelial tissue (d) Nervous tissue 👉 Explanation: Blood vessels are made of connective tissue (includes endothelium, smooth muscle, and elastic tissue). 👉 Explanation: Blood vessels are made of connective tissue (includes endothelium, smooth muscle, and elastic tissue). 132 / 253 133. What percentage of body weight is made up of blood in the human body? (a) 5% (b) 9% (c) 12% (d) 8% 👉 Explanation: On average, blood makes up about 7-8% of total body weight. 👉 Explanation: On average, blood makes up about 7-8% of total body weight. 133 / 253 134. What is the amount of oxygen present in 1 litre of blood? Normally, 1 litre of blood contains about 200 ml (0.2 litre) of oxygen when fully oxygenated. Oxygen is mainly carried by hemoglobin in red blood cells. Each gram of hemoglobin can carry about 1.34 ml of oxygen. On average, blood contains about 15 g of hemoglobin per 100 ml. So, oxygen content ≈ 20 ml per 100 ml of blood. Therefore, in 1 litre (1000 ml) of blood, oxygen ≈ 200 ml (0.2 litre). FAFAFA AFAAFF 134 / 253 135. Due to presence of which component, blood is red and salty in taste? (a) Hemoglobin protein (b) Sodium (c) Cholesterol (d) Uric acid 👉 Explanation: Hemoglobin gives red color; saltiness is due to plasma electrolytes. 👉 Explanation: Hemoglobin gives red color; saltiness is due to plasma electrolytes. 135 / 253 136. What is the pH of human blood? (a) 6.8 (b) 7.4 (c) 2.3 (d) 8.1 👉 Explanation: Normal blood pH = 7.35–7.45 👉 Explanation: Normal blood pH = 7.35–7.45 136 / 253 137. What percentage of plasma is water in the total blood volume? (a) 25% (b) 35% (c) 55% (d) 75% 👉 Explanation: Plasma makes up about 55% of blood, and it’s mostly water. 👉 Explanation: Plasma makes up about 55% of blood, and it’s mostly water. 137 / 253 138. Serum is defined as— (a) Plasma containing fibrinogen (b) Plasma without fibrinogen (c) Blood containing fibrinogen (d) Blood without fibrinogen 👉 Explanation: Serum = plasma − fibrinogen (no clotting factors). 👉 Explanation: Serum = plasma − fibrinogen (no clotting factors). 138 / 253 139. Blood is— (a) Liquid connective tissue (b) Vascular connective tissue (c) Epithelial tissue (d) Cartilage 👉 Explanation: Blood is classified as connective tissue due to its matrix (plasma). 👉 Explanation: Blood is classified as connective tissue due to its matrix (plasma). 139 / 253 140. The maximum component in blood plasma is— (a) Water (b) Salt (c) Protein (d) Organic compounds 👉 Explanation: Plasma is 90–92% water. 👉 Explanation: Plasma is 90–92% water. 140 / 253 141. What percentage of plasma is water? (a) 55–60% (b) 40–45% (c) More than 90% (d) 80% 141 / 253 142. What is the percentage of protein in plasma? (a) 5% (b) 7% (c) 9% (d) 11% 142 / 253 143. Which proteins are found in plasma? (a) Albumin (b) Globulin (c) Fibrinogen (d) All of these 143 / 253 144. If all the clotting factors are removed from blood, what is the remaining fluid called? (a) Plasma (b) Serum (c) Clot (d) Platelet 144 / 253 145. Consider the following statements: 1. Fibrinogen, globulin, and albumin are major proteins found in blood plasma. 2. Fibrinogen helps in blood clotting. 3. Albumin maintains osmotic balance. Which of the above is/are correct? (a) Only 1 (b) 1 and 2 (c) 1, 2, and 3 (d) Only 1 145 / 253 147. What is the percentage of blood corpuscles (blood cells) in human blood? Around 45% ✅ 👉 Explanation: Blood is ~45% cells (RBCs, WBCs, platelets) and 55% plasma. 146 / 253 146. Which protein plays an important role in blood clotting? (a) Globulin (b) Albumin (c) Fibrinogen (d) Myosin 147 / 253 149. Central nucleus is absent in— (a) RBC (b) WBC (c) Platelets (d) All of these 👉 Explanation: RBCs are anucleated (lack a nucleus) to carry more hemoglobin. 👉 Explanation: RBCs are anucleated (lack a nucleus) to carry more hemoglobin. 148 / 253 148. Which of the following statements is NOT true? (a) The number of red blood cells (RBCs) is more than any other blood cells. (b) RBCs are more than any other cells in the human body. (c) Oxygen-carrying protein hemoglobin is found only in RBCs. (d) The number of RBCs increases when oxygen level is high. Explanation: RBC count increases when oxygen level is low (e.g., at high altitudes), not high. Explanation: RBC count increases when oxygen level is low (e.g., at high altitudes), not high. 149 / 253 150. What is the life span of RBCs? (a) 80 days (b) 120 days (c) 130 days (d) 240 days 👉 Explanation: Normal RBCs live for about 120 days. 👉 Explanation: Normal RBCs live for about 120 days. 150 / 253 151. Under normal conditions (at high altitude), the number of RBCs— (a) Increases (b) Decreases (c) Does not change (d) No effect 👉 Explanation: At high altitudes, oxygen is low → body compensates by making more RBCs. 👉 Explanation: At high altitudes, oxygen is low → body compensates by making more RBCs. 151 / 253 152. What causes the red color of blood? (a) Plasma (b) Hemoglobin (c) RBC (d) WBC 👉 Explanation: Hemoglobin contains iron, giving blood its red color. 👉 Explanation: Hemoglobin contains iron, giving blood its red color. 152 / 253 153. Hemoglobin is— (a) Red (b) White (c) Blue (d) Yellow 👉 Explanation: Hemoglobin is a red-colored iron-containing pigment. 👉 Explanation: Hemoglobin is a red-colored iron-containing pigment. 153 / 253 154. Function of hemoglobin in body is— (a) Regulation of temperature (b) Killing of germs (c) Transport of oxygen (d) All of these 154 / 253 155. Main function of RBC is— (a) Helping in blood clotting (b) Fighting infections (c) Carrying oxygen from lungs to body (d) All of these 155 / 253 157. Which component helps in blood clotting? (a) Platelets (b) RBC (c) WBC (d) All of these 156 / 253 156. When foreign substances enter the human body, which blood component immediately acts? (a) RBC (b) WBC (c) Platelets (d) Plasma 👉 Explanation: WBCs fight off pathogens via immune response. 👉 Explanation: WBCs fight off pathogens via immune response. 157 / 253 158. Which WBC is highest in number in human blood? (a) Eosinophil (b) Basophil (c) Lymphocyte (d) Neutrophil 👉 Explanation: Neutrophils make up 55–70% of total WBCs. 👉 Explanation: Neutrophils make up 55–70% of total WBCs. 158 / 253 159. Which WBC is the largest in size? (a) Eosinophil (b) Basophil (c) Lymphocyte (d) Monocyte 159 / 253 160. Which WBC produces antibodies to kill pathogens? (a) Neutrophils (b) Monocytes (c) Lymphocytes (d) Basophils 160 / 253 161. Which WBC plays an important role in allergic reactions? (a) Lymphocyte (b) Eosinophil (c) Neutrophil (d) Basophil 161 / 253 162. In severe allergic reactions, which WBC increases most? (a) Eosinophils (b) Lymphocytes (c) Neutrophils (d) RBCs 162 / 253 163. Which component is essential in blood clotting? (a) RBC (b) WBC (c) Platelets (d) All of these 163 / 253 164. What is the normal hemoglobin level (per 100 ml) in a healthy male? a) 11.5 g (b) 12.5 g (c) 13.5 g (d) 14.5 g 👉 Explanation: Normal range for adult males: 13.5–17.5 g/dL 👉 Explanation: Normal range for adult males: 13.5–17.5 g/dL 164 / 253 165. What is the normal hemoglobin level in healthy females per 100 ml blood? (a) 12–16 g (b) 16–20 g (c) 20–24 g (d) 24–30 g 👉 Explanation: Normal range for adult females: 12.0–15.5 g/dL 👉 Explanation: Normal range for adult females: 12.0–15.5 g/dL 165 / 253 166. Which blood cell type is the most numerous in blood (Blood corpuscles)? (a) RBC (b) WBC (c) Platelets (d) All have equal numbers 👉 Explanation: RBCs are far more numerous than WBCs and platelets. 👉 Explanation: RBCs are far more numerous than WBCs and platelets. 166 / 253 167. Which WBC helps in fighting infections and foreign bodies like histamine, serotonin, etc.? (a) Neutrophils (b) Eosinophils (c) Basophils (d) Monocytes 167 / 253 168. Which body system is associated with the formation of lymph? (a) Circulatory (b) Respiratory (c) Excretory (d) Blood plasma 168 / 253 169. Which vitamin helps in blood clotting? (a) Vitamin A (b) Vitamin B1 (c) Vitamin E (d) Vitamin K 169 / 253 170. What is the normal body temperature of a human? (a) 40.5°C (b) 31.0°C (c) 39.6°C (d) 36.9°C 👉 Explanation: Normal body temp is around 36.9°C or 98.4°F. 👉 Explanation: Normal body temp is around 36.9°C or 98.4°F. 170 / 253 171. Functions of blood include— (a) Transport of O₂, CO₂, and nutrients (b) Regulation of body temp (c) Defense against disease (d) All of these 171 / 253 172. Which cells help in transporting oxygen in blood? (a) Red blood cells (RBCs) (b) Platelets (c) Leukocytes (d) Lymphocytes 172 / 253 173. What is the scientific name for red blood cells (RBCs)? (a) Erythrocytes (b) Leucocytes (c) Thrombocytes (d) Lymphocytes 173 / 253 174. What is the scientific name for blood platelets? (a) Erythrocytes (b) Leucocytes (c) Thrombocytes (d) Lymphocytes 174 / 253 175. Which deficiency causes blood to not clot properly? (a) Calcium (b) Plasma (c) Hemoglobin (d) Heparin 👉 Explanation: Heparin prevents blood clotting; deficiency or excess affects clotting. 👉 Explanation: Heparin prevents blood clotting; deficiency or excess affects clotting. 175 / 253 176. Which juice is responsible for blood's salty taste? (a) Pepsin (b) Hemoglobin (c) Histamine (d) Sodium chloride 176 / 253 177. Where are blood cells formed? (a) In the liver (b) In the kidney (c) In the bone marrow (d) In the lungs 177 / 253 178. What is called the “blood bank” in the human body? (a) Liver (b) Heart (c) Spleen (d) Kidney 👉 Explanation: The liver stores blood and regulates its volume. 👉 Explanation: The liver stores blood and regulates its volume. 178 / 253 179. Which is the graveyard of RBCs? (a) Liver (b) Spleen (c) Heart (d) Bone marrow 179 / 253 180. Where are RBCs destroyed? (a) Liver (b) Bone marrow (c) Spleen (d) Heart 180 / 253 182. Blood platelets help in forming blood clot by releasing— (a) Prothrombin (b) Thromboplastin (c) Fibrinogen (d) Thrombin 181 / 253 181. In a healthy human adult, how many WBCs are found per cubic mm of blood? (a) 2–3k to 4–6k (b) 2–10k to 5–15k (c) 10–30k to 13–15k (d) 4–8k to 10–15k 👉 Explanation: Normal WBC count is 4,000 to 11,000/mm³ 👉 Explanation: Normal WBC count is 4,000 to 11,000/mm³ 182 / 253 183. Fibrinogen is converted into fibrin by— (a) Prothrombin (b) Thrombin (c) Thromboplastin (d) Fibrin 183 / 253 184. Where are neutrophils and lymphocytes formed? (a) From bone marrow (b) From liver (c) From red marrow (d) From spleen 184 / 253 185. Consider the following statements about hemoglobin: 1. It helps in carrying oxygen. 2. It gives red color to blood. 3. It reacts to carbon monoxide and forms carboxyhemoglobin. 4. It is found in red blood cells. Which are true? ✅ Answer: All of the above (d) ✅ Answer: All of the above (d) 185 / 253 186. Which of the following is NOT present in blood plasma? (a) Cu⁺ (b) Mg²⁺ (c) Na⁺ (d) Ca²⁺ 👉 Copper is not normally found in plasma in free ionic form. 👉 Copper is not normally found in plasma in free ionic form. 186 / 253 187. How many types of WBCs are there? (a) 3 (b) 4 (c) 5 (d) 6 👉 Explanation: The six types are: neutrophils, eosinophils, basophils, monocytes, Blymphocytes, and T-lymphocytes. 👉 Explanation: The six types are: neutrophils, eosinophils, basophils, monocytes, Blymphocytes, and T-lymphocytes. 187 / 253 188. Which statement about blood platelets is correct? (a) They help in phagocytosis (b) They are the most abundant (c) They remain in active state (d) They are also called thrombocytes 188 / 253 189. Which blood cells increase during infection? (a) RBCs (b) WBCs (c) Platelets (d) None of these 189 / 253 190. Main function of RBCs is— (a) To regulate body temperature (b) To transport O₂ (c) To provide immunity (d) None of these 190 / 253 191. Which components help in blood clotting? 1. Platelets 2. Prothrombin 3. Vitamin K 4. Calcium ions (d) All of these (d) All of these 👉 Explanation: All mentioned components are essential in clotting. 👉 Explanation: All mentioned components are essential in clotting. 191 / 253 192. Speed of blood flow is related to— (a) Kidneys (b) Muscles (c) Lungs (d) Heart 192 / 253 194. If the number of blood vessels in a person decreases, their blood pressure— Increases (Option not fully visible but inferred) 👉 Fewer vessels = higher resistance = higher pressure. 193 / 253 193. Function of pacemaker is— (a) Regulate digestion (b) Control breathing (c) Initiate heartbeat (d) Initiate excretion 194 / 253 195. Where is urea formed in the body? (a) Lungs (b) Kidneys (c) Liver (d) Spleen 195 / 253 196. What is the normal concentration of cholesterol in human blood? (a) 80–120 mg (b) 120–140 mg (c) 140–180 mg (d) 180–200 mg 196 / 253 197. What is the normal fasting blood sugar level in humans? (a) 50–70 mg (b) 20–50 mg (c) 80–100 mg (d) 120–140 mg 197 / 253 198. Consider the following: 1. Normal glucose level is 80–120 mg/100 ml of blood 2. Normal cholesterol is 150–200 mg/100 ml of blood 3. Normal blood urea is 18–38 mg/100 ml of blood All of these All of these 198 / 253 199. After how much time does bleeding stop after injury? (a) 2–5 minutes (b) 5–10 minutes (c) 10–15 minutes (d) 15–20 minutes 199 / 253 201. Consider the following statements: 1. Shape of RBCs is biconcave 2. Shape of WBCs is not fixed 3. Platelets are smallest blood cells Correct option: (d) All of these Correct option: (d) All of these Correct option: (d) All of these Correct option: (d) All of these 200 / 253 200. Which of the following is a clotting protein? (a) Calcium (b) Zinc (c) Iron (d) Fibrinogen 201 / 253 202. Discovery of blood groups is credited to— (a) Edward Jenner (b) Karl Landsteiner (c) William Harvey (d) Robert Hook 👉 Explanation: Karl Landsteiner discovered the ABO blood group system in 1900. 👉 Explanation: Karl Landsteiner discovered the ABO blood group system in 1900. 202 / 253 203. In which year did Karl Landsteiner receive the Nobel Prize for his blood group discovery? (a) 1901 (b) 1930 (c) 1940 (d) 1902 203 / 253 204. Who discovered the ABO blood group system? (a) Karl Coulter (b) Miller Johnson (c) Edward Jenner (d) Karl Landsteiner 204 / 253 205. AB blood group— a) Has no antigens (b) Has no antibodies (c) Has no antigens or antibodies (d) Has both antigens and antibodies 👉 Explanation: AB group has both A and B antigens, but no antibodies, allowing it to receive all types. 👉 Explanation: AB group has both A and B antigens, but no antibodies, allowing it to receive all types. 205 / 253 206. Which blood group has no antigens? (a) A (b) AB (c) B (d) O 👉 Explanation: Blood group O has no antigens, but it has both A and B antibodies. 👉 Explanation: Blood group O has no antigens, but it has both A and B antibodies. 206 / 253 207. Where are antigens found in the blood? (a) On surface of RBCs (b) In plasma (c) On platelets (d) In plasma proteins 207 / 253 208. Where are antibodies found in the blood? (a) On RBCs (b) On WBCs (c) In plasma (d) On platelets 208 / 253 209. What is an antigen (Ag)? (a) Substance that stimulates antibody production (b) Used to make vitamins (c) Destroys beneficial microbes (d) Reduces food digestion 209 / 253 210. Consider the following: 1. AB blood group contains both antigens. ✅ 2. O blood group contains no antigens. ✅ Correct option: (c) Both 1 and 2 Correct option: (c) Both 1 and 2 210 / 253 212. Which blood group has no antibodies? (a) A (b) B (c) AB (d) O 211 / 253 213. A person with blood group O can donate blood to people with— (a) A or B (b) AB or A (c) A, B, AB, or O (d) AB or B 👉 Explanation: O group has no antigens, so it is the universal donor. 👉 Explanation: O group has no antigens, so it is the universal donor. 212 / 253 214. A person with AB blood group can receive blood from— (a) A or B (b) A, B, or O (c) All groups (A, B, AB, O) (d) Only AB 👉 Explanation: AB group has no antibodies, so it can receive from all groups. 👉 Explanation: AB group has no antibodies, so it can receive from all groups. 213 / 253 211. What is the main function of antibodies? (a) Regulate water balance (b) Destroy foreign particles (c) Supply food (d) Control infection 214 / 253 215. A person with blood group O has which antigens? (a) A and B (b) A (c) B (d) None 215 / 253 216. A person with blood group AB can receive blood from— (a) A and B (b) A, B, and O (c) Only AB (d) O and B 216 / 253 217. Which blood groups contain antibodies? (a) A (b) B (c) AB (d) O 👉 Explanation: Group O has both A and B antibodies. 👉 Explanation: Group O has both A and B antibodies. 217 / 253 218. The smallest blood vessel is— (a) Artery (b) Vein (c) Capillary ✅ (d) Nerve 218 / 253 219. A person with AB blood group— (a) Can donate to A, B, and O (b) Can donate to anyone (c) Cannot donate to anyone (d) Can receive blood from A, B, AB, O 219 / 253 220. What blood group is called the Universal Donor? (a) A (b) AB (c) B (d) O 👉 Explanation: Blood group O has no antigens → safe to donate to all. 👉 Explanation: Blood group O has no antigens → safe to donate to all. 220 / 253 221. People with blood group ‘O’ are called Universal Donors because— (a) They have no antigens ✅ (b) They have no antibodies (c) They have both A and B antigens (d) They have both A and B antibodies 👉 Explanation: O blood group has no antigens, so it can be given to all groups. 👉 Explanation: O blood group has no antigens, so it can be given to all groups. 221 / 253 222. Which blood group is called the Universal Acceptor? (a) A (b) O (c) AB (d) B 👉 Explanation: AB group has no antibodies, so it can receive from all. 👉 Explanation: AB group has no antibodies, so it can receive from all. 222 / 253 223. Blood group 'AB' is called universal acceptor because— (a) Has no antigens (b) Has no antibodies (c) Has both antigens and antibodies (d) Has only one antigen 223 / 253 224. Assertion (A): People with O group are called Universal Donors. Reason (R): Because their blood has no antigens. ✅ Answer: (a) Both A and R are true, and R is the correct explanation ✅ Answer: (a) Both A and R are true, and R is the correct explanation 224 / 253 225. If one parent has blood group AB and the other O, what are the possible blood groups of their children? (a) A or B (b) A or O (c) A, B or O (d) A, B, AB or O 👉 Explanation: AB x O = possible offspring genotypes are A or B only. 👉 Explanation: AB x O = possible offspring genotypes are A or B only. 225 / 253 226. If a man has blood group AB and his wife has blood group B, which blood group child is NOT possible? (a) AB (b) B (c) D (d) O 👉 Explanation: O group child requires both O alleles; impossible from AB parent. 👉 Explanation: O group child requires both O alleles; impossible from AB parent. 226 / 253 227. If both parents have AB group, what are the possible blood groups of their children? (a) A, B, AB and O (b) A, B and AB (c) A and B (d) AB and O 227 / 253 228. If one parent is A and the other B, which blood group is NOT possible for their children? (a) A (b) B (c) AB (d) O ✅ 👉 Explanation: If both are heterozygous (AO & BO), all four groups are possible, but if either is homozygous, O is not possible. ✅ 👉 Explanation: If both are heterozygous (AO & BO), all four groups are possible, but if either is homozygous, O is not possible. 228 / 253 229. If one parent is A and the other is O, which group is NOT possible for their child? (a) A (b) B (c) AB (d) O 229 / 253 230. If mother has A and father has B, what blood groups can their child have? (a) A or B (b) A, B, AB or O (c) A or AB (d) AB or O 230 / 253 231. Which statement is correct? (a) A person with blood group A can donate only to A (b) AB can donate to everyone (c) AB group person can give to O (d) O group person can receive from anyone 231 / 253 232. Who discovered the Rh factor? (a) Landsteiner (b) Wiener (c) Landsteiner & Wiener (d) Ross 232 / 253 233. Rh factor is related to— (a) Muscles (b) Blood (c) Liver (d) Lungs 233 / 253 234. Where was Rh antigen first discovered? (a) In rabbit (b) In monkey ✅ (Rhesus monkey) (c) In horse (d) In cat 234 / 253 236. In some cases, a fetus dies in the womb due to mismatch of blood group between mother and fetus. This condition is called Erythroblastosis Fetalis. The reason is— (a) Father is Rh⁺ and mother is Rh⁺ (b) Father and mother both are Rh⁺ (c) Father is Rh⁺ and mother is Rh⁻ (d) Father is Rh⁻ and mother is Rh⁺ 👉 Explanation: If an Rh⁻ mother carries an Rh⁺ baby, her body may produce antibodies that attack the fetus’s red blood cells. 👉 Explanation: If an Rh⁻ mother carries an Rh⁺ baby, her body may produce antibodies that attack the fetus’s red blood cells. 235 / 253 235. In which blood groups is agglutination observed? (a) A and B (b) A and AB (c) B and AB (d) In all of these 👉 Explanation: Agglutination is the clumping of blood due to incompatible antigens and antibodies, seen in mismatched transfusions. 👉 Explanation: Agglutination is the clumping of blood due to incompatible antigens and antibodies, seen in mismatched transfusions. 236 / 253 237. Which of the following Rh pairings is not suitable for marriage? (a) Rh⁺ male & Rh⁻ female (b) Rh⁻ male & Rh⁺ female (c) Rh⁻ male & Rh⁻ female (d) Rh⁺ male & Rh⁺ female 👉 Explanation: Rh⁺ male and Rh⁻ female may lead to Rh incompatibility, especially in second pregnancies. 👉 Explanation: Rh⁺ male and Rh⁻ female may lead to Rh incompatibility, especially in second pregnancies. 237 / 253 238. What is produced in the condition of Erythroblastosis Fetalis? (a) When both father and mother are Rh⁻ (b) When mother is Rh⁺ and father is Rh⁻ (c) When both parents are Rh⁺ (d) When father is Rh⁺ and mother is Rh⁻ 238 / 253 239. What is the normal human body temperature? (a) 98.4°F (b) 98°F (c) 98.6°F (d) 97°F 239 / 253 240. Human body temperature— (a) Is higher in winter (b) Is higher in summer (c) Rises in the evening (d) Remains the same in all seasons 240 / 253 241. What are the harmful substances in cigarettes called? (a) Nicotine (b) Alcohol (c) Tar (d) All of these 241 / 253 243. Which of the following is not involved in determining blood groups? (a) Iᴬ (b) Iᴮ (c) i (d) X 👉 Explanation: X is a sex chromosome, not related to ABO blood group. 👉 Explanation: X is a sex chromosome, not related to ABO blood group. 242 / 253 242. Which are not found in blood? (a) RBCs (b) WBCs (c) Platelets (d) A and C both 👉 Explanation: Trick question—A and C are not found in serum (not blood); this may be an error. In blood, all are present. Possibly poorly phrased. 👉 Explanation: Trick question—A and C are not found in serum (not blood); this may be an error. In blood, all are present. Possibly poorly phrased. 243 / 253 244. If child gets IA and IB genes from parents, what will be their blood group? (a) A (b) B (c) AB (d) O 244 / 253 245. Human blood pressure— (a) Is measured by barometer (b) Is measured by sphygmomanometer (c) Is measured by thermometer (d) Is not measurable 245 / 253 247. The condition of deficiency of RBCs is called— (a) Hemophilia (b) Leukemia (c) Typhoid (d) Anemia 246 / 253 **246. Consider the statements: 1. RBC count is higher in males than females 2. Males have more blood volume than females** Which is correct? ✅ (c) Both 1 and 2 ✅ (c) Both 1 and 2 247 / 253 248. The blood disease caused by mosquito bite is— (a) Typhoid (b) Malaria (c) Dengue (d) Cholera 248 / 253 249. Which is the largest WBC? (a) Neutrophil (b) Monocyte (c) Lymphocyte (d) Eosinophil 249 / 253 250. What is the average diameter of WBC? (a) 0.0007 mm (b) 0.007 mm (c) 0.07 mm (d) 0.7 mm 250 / 253 251. What is the diameter of RBC in microns? (a) 5 mm (b) 7 mm (c) 9 mm (d) 100 mm 👉 Explanation: RBC diameter is about 7–8 µm (microns); 9 mm is incorrect, should be 9 µm or 7.5 µm. 👉 Explanation: RBC diameter is about 7–8 µm (microns); 9 mm is incorrect, should be 9 µm or 7.5 µm. 251 / 253 **252. Consider the statements: 1. Blood pressure affects both systolic and diastolic pressure equally 2. Blood pressure affects systolic and diastolic pressure differently** Correct one: (b) Only 2 (b) Only 2 252 / 253 253. The number of RBCs is counted using— (a) Hemocytometer (b) Sphygmomanometer (c) Thermometer (d) Hemometer 253 / 253 254. Which organ forms blood cells in the fetus? (a) Bone marrow (b) Liver (c) Spleen (d) All of the above 👉 Explanation: In fetal stage, liver and spleen contribute to blood formation before bone marrow takes over. 👉 Explanation: In fetal stage, liver and spleen contribute to blood formation before bone marrow takes over. 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