An artistic depiction of the Leonid meteor storm seen over North America on the night of November 12-13, 1833, Edmund Weiss

δ–Aquarid meteor shower

Sat, 29 Jul 2017 (6 days away)

Dominic Ford, Editor
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The sky at

The δ–Aquarid meteor shower will reach its maximum rate of activity on 29 July 2017. Some shooting stars associated with the shower are expected to be visible each night from 15 Jul to 20 Aug.

The maximum rate of meteors expected to be visible is around 20 per hour (ZHR). However, this assumes a perfectly dark sky and that the radiant of the meteor shower is directly overhead. In practice, the number of meteors you are likely to see is lower than this, and can be calculated from the ZHR formula.

From Ashburn (click to change), the radiant of the shower will appear 16° above your south-eastern horizon at midnight. This means you are likely to see only around 5 meteors per hour, since the radiant will be low in the sky, reducing the chance of seeing meteors.

The radiant of the δ–Aquarid meteor shower is at around right ascension 22h30m, declination -17°, as shown by the green cross on the planetarium above. All of the meteors will appear to be travelling directly outward from this point, as indicated by the white lines drawn above.

The Moon will be 6 days old at the time of peak activity, presenting minimal interference.

To see the most meteors, the best place to look is not directly at the radiant itself, but at any dark patch of sky which is around 30–40° away from it. It is at a distance of around this distance from the radiant that meteors will show reasonably long trails without being too spread out.

The sky on 29 July 2017
Sunrise 06:07
Sunset 20:23
Twilight ends
22:11
Twilight begins
04:19

6-day old moon
Age of Moon
6 days

All times shown in EDT.
Rise Culm. Set
Mercury 08:27 15:00 21:33
Venus 03:10 10:29 17:47
Moon 12:50 18:32 00:14
Mars 06:01 13:13 20:24
Jupiter 11:56 17:41 23:27
Saturn 17:14 22:01 02:52

Source

The Handbook of the British Astronomical Association.

Image credit

An artistic depiction of the Leonid meteor storm seen over North America on the night of November 12-13, 1833, Edmund Weiss

Ashburn

Latitude:
Longitude:
Timezone:

39.04°N
77.49°W
EDT

Color scheme