The volume of blood present in each ventricle before the beginning of atrial systole and at the end of joint diastole is.

Muscular ridges present inside each ventricle are

Read the following statements and choose the correct option Statement-1 : Atria receive blood from all parts of the body which subsequently flows to ventricles. Statement-2 : Action potential generated at sino-atrial node passes from atria to ventricles.

The valves which are present in the blood vessels are closed to prevent backward flow of blood into the ventricles we hear the sound of heart as

A medicine capsule is in the shape of a cylinder with two hemispheres stock to each of its ends. If the length of cylinder part is 14mm and the diameter of hemisphere is 6 mm. then find the volume of medicine capsule.

Ideal gas equation is represented as PV=nRT . Gases present in the universe were found ideal n the Boyle's temperature range only. The compressibility factor for an ideal gas, Z= (PV)/(nRT) . The main cause to show deviations were due to wrong assumptions made bout forces of attractions (which becomes significant at high pressure). olume occupied by molecules V, in PV = nRT, is supposed to be volume of as or, the volume of container in which gas is placed by assuming that aseous molecules do not have appreciable volume. Actual volume of the as is that volume in which each molecule of a gas can move freely. If olume occupied by gaseous molecule is not negligible, then the term V hould be replaced by the ideal volume which is available for free motion of ach molecule of gas. Similarly for n moles of gas V_("actual") = V-nb The excluded volume can be calculated by considering bimolecular collisions. The excluded volume is the volume occupied by the sphere of 2r for each pair of molecule. Thus, excluded volume for one pair of molecules = 4/3 pi (2r)^3 = (4 xx 8 pi r^3)/3 The excluded volume for 1 molecule = 2/3 xx 8 pi r^3 = 4 xx (4/3 pi r^3) = 4V The excluded volume for N molecules = 4NV = b (where N is Avogadro's No.) The compressibility factor for N_2 at -50^@C and 800 atm pressure is 1.95. Number of moles of N_2 required to fill a balloon of 100 L capacity is :

16 g each of H_(2), He and O_(2) are present in a container exerting 10 atm pressure at T(K). The pressure in atm exerted by 16 g each of He and O_(2) in the second container of same volume and temperature is