tricuspid valve
simple valve
bicuspid or mitral value
sphincter value
C. bicuspid or mitral value
muscle contraction
nerve conduction
renal excretion
blood circulation
monkey
chimpanzee
man
none of these
lymph node
liver
pancreas
spleen
earthworm
leech
lung fishes
insects
urea
bile
glucose
erythrocytes
oxygenated blood to the heart
deoxygenated blood to the lungs
oxygenated blood to the brain
deoxygenated blood to the stomach
the ventricles to contract
the auricles to contract
both (a) and (b)
the relaxation of heart
increase
decrease
show no change
stroke volume increases
120 days
150 days
190 days
180 days
drying as a result of evaporation of the plasma
denaturation of the blood albumins by thrombin
conversion of fibrinogen to fibrin by thrombin
haemolysis of erythrocytes
70-100 mmHg
60-80 mmHg
90-120 mmHg
60-90 mmHg
sphygmomanometer
respirometer
thermometer
stethoscope
bicarbonate shift
chloride shift
sodium shift
none of these
A only
AB only
Bonly
Oonly
heart to lungs
lungs to heart
lungs to right auricle
lungs to left auricle
A
AB
B
O
movement of erythrocytes to injury site
migration of cells through the walls of blood capillaries into the tissue spaces
contraction of muscles
none of these
mononudeated
anucleated
dinucleated
multinucleated
4 fim
less than 5 fim
more than 5 Jim
more than 10 Jim
monocyte
thrombocyte
erythrocyte
lymphocyte
myogenic
neurogenic
amyogenic
both (a) and YW
rabbit
monkey
man
camel
haemocytopoiesis
hematopoiesis
both (a) and (b)
none of these
a rise in the systolic pressure
a rise in the diastolic pressure
a decrease in the systolic pressure
a decrease in the diastolic pressure
A
B
AB
O
haemoglobin
haemerythrin
haemocyanin
chlorocruorin
non living
non proteineceous
non cellular
non vascularised
hepatic vein
renal vein
renal artery
hepatic artery
pulmonary
renal
coronary
azygous
lacteals
valved veins
capillaries
any of these