What did it matter? Miramar—"Beautiful Sea!" He laughed grimly at thought of how that sea had served him, but his eyes were tender in his tanned and blood-stained face.

Miramar could be restored. And it would be less lonely now....

ROBOT CHEMIST

robot chemist with an electric eye, radio brain and magnet hands functioned without human supervision in an improvised laboratory recently before members of the New York Electrical Society.

The automatic chemist performed several experiments. Its work was explained by William C. MacTavish, professor of chemistry at New York University, and was part of a program in which cold light was reproduced, a sample weighing a millionth of a gram analyzed, a photo-electric cell used to control analysis and new scientific apparatus demonstrated.

In his talk on "The Magic of Modern Chemistry," Professor MacTavish demonstrated the separation of para-hydrogen and ortho-hydrogen. In the micro-analysis of a millionth of a gram, Professor MacTavish exhibited in the micro-projector a ball of gold weighing one thousandth of a milligram (one twenty-eight millionth of an ounce), having a value of less than one ten-thousandth of a cent.

The robot chemist was the joint creation of Dr. H. M. Partridge and Professor Ralph H. Muller of the department of chemistry at New York University. In explaining what the automatic chemist can do, Professor MacTavish said:

"The ability of the automatic chemist to control chemical operations is due to its sensitivity to slight variations in color and light intensity. Its working parts are very simple. They consist of a standard light source, in this case an electric light, a photo-electric cell which detects differences in the amount of light impinging on it, a radio tube which amplifies the signal received from the photo-electric cell and which operates the relays controlling the automatic valves.