A test tube containing molasses solution and yeast is kept in a warm place overnight. The gas collected from this mixture

A Test tube containing water, Ferricyanide and isolated chloroplasts was illuminated. A gas start evolving on the basis of their experiment. Answer the following questions. From which raw material is the gas evolved?

A Test tube containing water, Ferricyanide and isolated chloroplasts was illuminated. A gas start evolving on the basis of their experiment. Answer the following questions. In which light would the gas stop evolving and why?

A Test tube containing water, Ferricyanide and isolated chloroplasts was illuminated. A gas start evolving on the basis of their experiment. Answer the following questions. Explain the process (step) by which it is evolved?

The pressure of a gas kept in an isothermal container is 200Kpa. If half the gas is removed from it, the pressure will be

A Kundt's tube apparatus has a copper rod of length 1.0 m clamped at 25 cm from one of the ends. The tube contains air in which the speed of sound is 340 ms^-1 The powder collects in. heaps separated by a distance of 5.0 cm. Find the speed of sound waves in copper.

A long cylindrical tube containing water in closed by an equinvex lens of focal length 10 cm in air. A point source is placed along the axis of the tube outside it at a distance of 21 cm from the lens. Locate the final image of the source. Refractive index of the materials of the lens =1.5 and that of water =1.33.

Consider a tank which initially holds V_(0) liter of brine that contains a lb of salt. Another brine solution, containing b lb of salt per liter is poured into the tank at the rate of eL//"min" . The problem is to find the amount of salt in the tank at any time t. Let Q denote the amount of salt in the tank at any time. The time rate of change of Q, (dQ)/(dt) , equals the rate at which salt enters the tank at the rate at which salt leaves the tank. Salt enters the tank at the rate of be lb/min. To determine the rate at which salt leaves the tank, we first calculate the volume of brine in the tank at any time t, which is the initial volume V_(0) plus the volume of brine added et minus the volume of brine removed ft. Thus, the volume of brine at any time is V_(0)+et-ft The concentration of salt in the tank at any time is Q//(V_(0)+et-ft) , from which it follows that salt leaves the tank at the rate of f(Q/(V_(0)+et-ft)) lb/min. Thus, (dQ)/(dt)=be-f(Q/(V_(0)+et-ft))Q=be A tank initially holds 100 L of a brine solution containing 20 lb of salt. At t=0, fresh water is poured into the tank at the rate of 5 L/min, while the well-stirred mixture leaves the tank at the same rate. Then the amount of salt in the tank after 20 min.