The apparatus is illustrated in a drawing shown in Fig. 30. S represents a Sprengel pump, which has been specially constructed to better suit the work required. The stop-cock which is usually employed has been omitted, and instead of it a hollow stopper s has been fitted in the neck

of the reservoir R. This stopper has a small hole h, through which the mercury descends; the size of the outlet o being properly determined with respect to the section of the fall tube t, which is sealed to the reservoir instead of being connected to it in the usual manner. This arrangement overcomes the imperfections and troubles which often arise from the use of the stopcock on the reservoir and the connection of the latter with the fall tube.

The pump is connected through a U-shaped tube t to a very large reservoir R₁. Especial care was taken in fitting the grinding surfaces of the stoppers p and p₁, and both of these and the mercury caps above them were made exceptionally long. After the U-shaped tube was fitted and put in place, it was heated, so as to soften and take off the strain resulting from imperfect fitting. The U-shaped tube was provided with a stopcock C, and two ground connections g and g₁—one for a small bulb b, usually containing caustic potash, and the other for the receiver r, to be exhausted.

The reservoir R₁ was connected by means of a rubber tube to a slightly larger reservoir R₂, each of the two reservoirs being provided with a stopcock C₁ and C₂, respectively. The reservoir R₁ could be raised and lowered by a wheel and rack, and the range of its motion was so determined that when it was filled with mercury and the stopcock C₂ closed, so as to form a Torricellian vacuum in it when raised, it could be lifted so high that the mercury in reservoir R₁ would stand a little above stopcock C₁; and when this stopcock was closed and the reservoir R₂ descended, so as to form a Torricellian vacuum in

reservoir R₁, it could be lowered so far as to completely empty the latter, the mercury filling the reservoir R₂ up to a little above stopcock C₂.

The capacity of the pump and of the connections was taken as small as possible relatively to the volume of reservoir R₁, since, of course, the degree of exhaustion depended upon the ratio of these quantities.

With this apparatus I combined the usual means indicated by former experiments for the production of very high vacua. In most of the experiments it was convenient to use caustic potash. I may venture to say, in regard to its use, that much time is saved and a more perfect action of the pump insured by fusing and boiling the potash as soon as, or even before, the pump settles down. If this course is not followed the sticks, as ordinarily employed, may give moisture off at a certain very slow rate, and the pump may work for many hours without reaching a very high vacuum. The potash was heated either by a spirit lamp or by passing a discharge through it, or by passing a current through a wire contained in it. The advantage in the latter case was that the heating could be more rapidly repeated.

Generally the process of exhaustion was the following:—At the start, the stop-cocks C and C₁ being open, and all other connections closed, the reservoir R₂ was raised so far that the mercury filled the reservoir R₁ and a part of the narrow connecting U-shaped tube. When the pump was set to work, the mercury would, of course, quickly rise in the tube, and reservoir R₂ was lowered, the experimenter keeping the mercury at about the same level.

The reservoir R₂ was balanced by a long spring which facilitated the operation, and the friction of the parts was generally sufficient to keep it almost in any position. When the Sprengel pump had done its work, the reservoir R₂ was further lowered and the mercury descended in R₁ and filled R₂, whereupon stopcock C₂ was closed. The air adhering to the walls of R₁ and that absorbed by the mercury was carried off, and to free the mercury of all air the reservoir R₂ was for a long time worked up and down. During this process some air, which would gather below stopcock C₂, was expelled from R₂ by lowering it far enough and opening the stopcock, closing the latter again before raising the reservoir. When all the air had been expelled from the mercury, and no air would gather in R₂ when it was lowered, the caustic potash was resorted to. The reservoir R₂ was now again raised until the mercury in R₁ stood above stopcock C₁. The caustic potash was fused and boiled, and the moisture partly carried off by the pump and partly re-absorbed; and this process of heating and cooling was repeated many times, and each time, upon the moisture being absorbed or carried off, the reservoir R₂ was for a long time raised and lowered. In this manner all the moisture was carried off from the mercury, and both the reservoirs were in proper condition to be used. The reservoir R₂ was then again raised to the top, and the pump was kept working for a long time. When the highest vacuum obtainable with the pump had been reached the potash bulb was usually wrapped with cotton which was sprinkled with ether so as to keep the potash at a very low temperature, then the reservoir R₂ was lowered, and