![]() ![]() So the time from the beginning of one retrograde movement to the beginning of the next is approximately 13 months. Jupiter’s retrograde periods last for 4 months and are then followed by periods of nine months of prograde motion before going retrograde again. They are drawn as they would appear in the sky if we were lying down with our legs pointing to the south and looking upwards so that east would be on our left and west on our right. Sky maps can be very confusing because they are not drawn in the conventional way with east on the right and west on the left. At position 4, it appears to have resumed prograde motion as it moves from west to east again. At positions 2 and 3, its direction appears to have changed from prograde to retrograde so that it is now moving from east to west. The following diagram shows that, as Jupiter is overtaken by the Earth, its apparent motion across the sky appears to describe a loop as its direction changes from prograde to retrograde and then back to prograde again.Īt position 1, Jupiter appears to be moving from west to east in prograde motion. Jupiter moves across the sky in a very predictable pattern, but every now and then it reverses direction in the sky, making a tiny loop against the background stars – this is Jupiter in retrograde. Just as the movement of Mars appears to change between retrograde and prograde, so does that of Jupiter. To summarize, Mars will sometimes appear to be moving from left to right with respect to the background stars, sometimes it will seem to move in the opposite direction and in between these changes in, it will appear to pause. Before a change in direction, the planet seems to slow down and then pause for about a week before starting to move in the new direction. These changes in the apparent motion of Mars from retrograde to prograde and vice versa are not sudden changes. The speed at which the two planets will be moving in opposite directions will be equal to their combined orbital speeds i.e. However, if the Earth is at point Z, it will appear that Mars is moving in the opposite direction, that is right to left. When Mars is at point X and Earth is at point Y, Mars and Earth are at their closest and although they are both moving from right to left of the diagram, because Mars is travelling 6 km/s slower, it will appear, to an observer on the Earth, to be moving left to right this is retrograde motion. The following diagram represents the orbits of the Earth and Mars around the Sun with the Earth on the ‘inside track’ and Mars on the outside. Taking this into account along with Earth’s greater speed, it is easy to see that the Earth will overtake Mars from time to time in fact it laps Mars every 26 months. Secondly, the orbit of the Earth is closer to the Sun than that of Mars, and this puts Earth on the inside track, so to speak. Thus, the Mars’ year is 1.8 times as long as the Earth year. Firstly, the circumference of Mar’s orbit is 1.6 times greater than that of the Earth and with an orbital speed of 24 km/s, it takes 686.98 Earth days to complete each orbit while Earth travels at 30 km/s taking 365.25 days. To do this, we must study the effect of the motions of both the Earth and Mars around the Sun. We can best understand the retrograde and prograde motions of Mars by considering the planet’s motion relevant to distant stars.
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