satellites have been the means or a discovery, which, though
not so immediately applicable to the wants of man, unfolds
a property of light, that medium, without whose cheering influence
all the beauties of the creation would have been to
us a blank. It is observed, that those eclipses of the first
satellite which happen when Jupiter is near conjunction, are later
by 16' 26" than those which take place when the planet is in
opposition. But as Jupiter is nearer to us when in opposition
by the whole breadth of the earth's orbit than when in
conjunction, this circumstance was attributed to the time employed
by the rays of light in crossing the earth's orbit, a distance of
192 millions of miles; whence it is estimated, that light travels
at the rate of 192000 miles in one second. Such is its velocity,
that the earth, moving at the rate of nineteen miles in a second,
would take two months to pass through a distance which a
ray of light would dart over in eight minutes. The subsequent
discovery of the aberration of light confirmed this astonishing
result.
Objects appear to ha situate in the direction of the rays that proceed from them. Were light propagated instantaneously, every object, whether at rest or in motion, would appear in the direction of these rays; but as light takes some time to travel, when Jupiter is in conjunction, we see him by means of rays that left him 16" 26" before; but during that time we have changed our position, in consequence of the motion of the earth in its orbit; we therefore refer Jupiter to a place in which he is not. His true position is in the diagonal of the parallelogram, whose sides are in the ratio of the velocity of light to the velocity of the earth in its orbit, which is as 192000 to 19. In consequence of aberration, none of the heavenly bodies are in the place in which they seem to be. In fact, if the earth were at rest, rays from a star would pass along the axis of a telescope directed to it; but if the earth were to begin to move in its orbit with its usual velocity, these rays would strike against the side of the tube; it would therefore be necessary to incline the telescope a little, in order to see the star. The angle contained between the axis of the telescope and a line drawn to the true place of the star, is its aberration, which varies in quantity and direction in different parts of the earth's
