100 



problems belonging to the subject may be solved ; namely, the de- 

 termination of the magnetic axis of a needle ; the exact determination 

 of the moment of inertia of an oscillating needle ; the deviation pro- 

 duced in the direction of the horizontal needle by the neighbour- 

 hood of a magnet ; and the determination of the absolute intensity 

 of the horizontal magnetic force of the earth. A combination of 

 magnetic observers in different places had been set on foot by M. 

 von Humboldt in 1828 ; a magnetic observatory was erected atGot- 

 tingen in 1833 ; and in consequence of these circumstances the cu- 

 rious discovery was made in 1834, that the minute momentary 

 changes in the position of the horizontal needle are simultaneous 

 and corresponding at distant places. This led M. Gauss to direct 

 the attention of men of science more particularly to this subject; 

 and the operations of the " Magnetic Union" of observers were car- 

 ried on with great activity under his guidance. The " Results of 

 the observations of the Magnetic Union" for 1836 and for 1837, 

 published by MM. Gauss and W. Weber, contain an account of the 

 consequences of these exertions. They also contain descriptions of 

 instruments invented by M. Gauss for the purpose of these obser- 

 vations, namely, the magnetometer, and other magnetical apparatus 

 of his construction, which has already been sent to the observatories 

 of Bonn, Dublin, Freiberg, Greenwich, Kasan, Milan, Munich, Na- 

 ples, Upsala, Krakow, Leipzig, and Marpurg. Also the Bifilar 

 Magnetometer, which determines directly the variation of horizontal 

 intensity. The " Results" further contain various mathematical 

 calculations of great importance, on the subject of the above instru- 

 ments, and of the observations made by them. And it appears by 

 observations made in March, 1838, at Gdttingen and three other 

 places, with the Bifilar apparatus, that there is the same correspond- 

 ence in the simultaneous changes of intensity at different places 

 which had already been discovered in the declination. The inge- 

 nuity shown in the invention of instruments and processes, the ma- 

 thematical skill employed in treating the observations, and the im- 

 portance and interest of the results, are well deserving of being ho- 

 nourably marked by the Royal Society, and the adjudication of the 

 Copley Medal to M. Gauss. 



The Council have also awarded a Copley Medal to Dr. Faraday 

 for his discovery of Specific Electrical Induction, published in the 

 eleventh series of his Experimental Researches in Electricity. 



From the peculiar view which he had taken of the phenomejia 

 of induction, Dr. Faraday was led to expect some particular relation 

 of this process to different kinds of matter, through which it might 

 be exerted. This relation he succeeded in establishing by the most 

 decisive experiments. 



The phenomena are shown in their simplest form by an instru- 

 ment which he has named a Differential Inductometer. It consists 

 of three insulated metallic plates, placed facing each other; the cen- 

 tre one being fixed, and the other two moveable upon glides, by 

 which they may be approximated to or withdrawn from the centre. 



