a. Ciprofloxacin b. Paracetamol c. Ibuprofen d. Tocopherol Ans.a Explanation : Ciprofloxacin is used as antibiotic while Paracetamol, Ibuprofen and tocopherol are respectively antipyretic, pain killer and Vitamin E respectively. (6)
a. Antimalarial b. Antideressant c. Antiseptic d. Antipyretic Ans. d Explanation : It is aspirin. (8)
a. Dysentery b. Urinary infections c. Antiseptic d. Antipyrestic Ans. a Explanation : Sulphaguadine tablet is used for enteric infecetions, sterilization of colon and other conditions. (5)
a. Aspirin b. Paracetamol c. Barbituric acid d. Phenacetin Ans. c Explanation: Rest all are antipyretic, Barbituric acid is tranquilizer. (20)
(2 – 3 % l 2 in water / alcohol) and some dyes like methylene blue are a. Antiseptics b. Disinfectants c. Analgesics d. Antipyretics Ans. a (10)
a. Typhoid b. Cholera c. Malaria d. Tuberculosis Ans. d (7)
a. Quinine b. Aspirin c. Analgin d. Equanil Ans. a (16)
a. Antiseptic b. Antipyretic c. Analgesic d. None of these Ans. a (6)
a. Tuberculosis b. Malaria c. Typhoid d. Cholera Ans. c (4)
a. Disinfectant b. Antiseptic c. Analgesic d. antipyretic Ans.b (8)
a. Equanil b. Naproxen c. Tetracylin d. Dettol Ans. a (30)
a. Anaesthetic b. Sedative c. Antiseptic d. None of these Ans. b (11)
a. Only S -enantiomer b. Only R -enantiomer c. Racemic mixture of both R and S enantiomer d. Both R and S enantiomer are active pain killers Ans.a (16)
a. Methyl salicylate b. Ethyl salicyltate c. Acetyl salicylic acid d. o- hydroxy benzoic acid Ans. a (23)
a. Penicillin b. Sterptomycin c. Tetracyline d. Chloramphenicol Ans. d (11)
a. Inhibit the cataytic activity of the enzyme b. Prevent the binding of substrate c. Generally a strong covalent bond is formed between an inhibitor and an enzyme d. Inhibitors can be competitive or non – competitive Ans. c (20)
a. Carboydrates b. Lipids c. Vitamins d. Proteins Ans. c (13)
a. On the basis of chemical structure b. On the basic of drug action c. On the basic of molecular targets d. On the basic of pharmacological effect Ans. c (16)
a. Allergy b. Cancer c. German measeles d. Sickel-cell-anaemia Ans. b (4)
a. Gram positive or gram negative bacteria b. Gram negative bacteria only c. single organism or one disease d. Both gram positive and gram negative bacteria Ans. a (29)
a. Congo Red b. Aniline Yellow c. Alizarin d. Indigo Ans. b (5)
a. Contain estrogen only b. Contain porgesterone only c. Contain a mixture of estrogen and progesterone derivatives d. Progesterone enhances ovulation Ans. c (22)
a. Penicillin b. Streptomycin c. Tetracycline d. Chloroampheniol Ans. a (7)
a. Bacteria actinomyceets b. Acids c. Alkanals d. Bacteria rhizobium Ans. a (16)
a. Bacterial disease b. Viral disease c. Veneral disease d. Protozone disease Ans. b (16)
a. Kills the antibodies b. Acts on a specific antigen c. Acts on different antigens d. Acts on both the antigens and antibodies Ans. c (73)
a. Erythromycin b. Penicillin c. Aminoglcoside d. Ofloxacin Ans. a (4)
a. 4 – chloro – 3, 5- dimethylphenol b. 3 – chloro – 4, 5- dimethylphenol c. 4- chloro – 2, 5- dimethylphenol d. 5 – chloro – 3, 4- dimethylphenol Ans. a (15)
a. Some antiseptics can be added to soaps b. Dilute solutions of some disinfectants can be used as antiseptic c. Disnfectants are antimicrobbial drugs d. Antiseptic medicines can be ingested Ans.d (6)
a. Homoeotherapy b. Isothermotherapy c. Angiotherapy d. Physiotherapy e. Chemotherapy Ans. e (12)
a. Ethyl acetate b. Methyl acetate c. Methyal salicylate d. Ethyl benzote Ans. c (17)
a. An antidepressant b. A broad spectrum antibiotic c. a sugar pill d. a tonic Ans. c (9)
a. Cr 3 + b. Fe 3 + c. Al3 + d. Sn 2 + Ans. c (10)
a. penicillin b. Oxytocin c. Erythromycin d. Tetracyline Ans. b (39)
a. Pyretics b. Antipyretics c. Antibiotics d. Antiseptics Ans. b (5)
a. Narrow spectrum antibiotic b. Broad spectrum analgestic c. Broad spectrum antibiotic d. Broad spectrum antibacterial Ans. c (11)
a. Streptomycin b. Penicillin c. Chloramphenicol d. Tetracylin Ans. b (11)
a. Tetracycline b. Chloromycetin c. Penicillin d. None of these Ans. c (6)