You are working in a condensed-matter laboratory for your senior project. Several of the ongoing projects use liquid helium, which is contained in a thermally insulated vessel that can hold up to a maximum of Vmax​=240L of the liquid at Tc​=4.20K. Because some of the liquid helium has already been used, someone asks you to check to see if there is enough for the next day, on which four different experimental groups will need liquid helium. You are not sure how to measure the amount of liquid remaining, so you insert an aluminum rod of length L=2.00m and with a cross-sectional area A=2.50cm2 into the vessel. By seeing how much of the lower end of the rod is frosted when you pull it out, you can estimate the depth of the liquid helium. After inserting the rod, however, one of the experimenters calls you over to perform a task and you forget about the rod, leaving it in the liquid helium until the next morning. How much liquid helium is available for the next day's experiments? (Aluminum has thermal conductivity of 3100W/m⋅K at 4.20 K; ignore its temperature variation. The density of liquid helium is 125kg/m3 .) Assume that gaseous helium can escape from the top of the vessel.