Tide times in Jefferson Creek at South Bethany de
DE, United States
Wed 4 Mar
| Time | Height | Coef. | Type |
|---|---|---|---|
| 00:38 | 0.54m | 61 | High tide |
| 07:33 | 0.35m | - | Low tide |
| 13:11 | 0.54m | 61 | High tide |
| 19:28 | 0.38m | - | Low tide |
This week
| Date | High tide | Low tide | Coef. |
|---|---|---|---|
| Tue 3 Mar | 12:38 (0.54m) | 06:43 (0.34m) / 18:50 (0.39m) | 61 |
| Wed 4 Mar | 00:38 (0.54m) / 13:11 (0.54m) | 07:33 (0.35m) / 19:28 (0.38m) | 61 |
| Thu 5 Mar | 01:28 (0.55m) / 13:44 (0.52m) | 08:19 (0.36m) / 20:07 (0.37m) | 61 |
| Fri 6 Mar | 02:17 (0.55m) / 14:20 (0.50m) | 09:03 (0.36m) / 20:47 (0.35m) | 61 |
| Sat 7 Mar | 03:05 (0.54m) / 14:59 (0.48m) | 09:46 (0.35m) / 21:29 (0.33m) | 61 |
| Sun 8 Mar | 04:52 (0.53m) / 16:40 (0.46m) | 11:28 (0.35m) / 23:11 (0.31m) | 61 |
| Mon 9 Mar | 05:38 (0.51m) / 17:23 (0.44m) | 12:10 (0.35m) / 23:53 (0.30m) | 60 |
| Tue 10 Mar | 06:25 (0.50m) / 18:08 (0.43m) | 12:54 (0.35m) | 60 |
| Wed 11 Mar | 07:13 (0.49m) / 18:58 (0.43m) | 00:37 (0.29m) / 13:40 (0.36m) | 60 |
| Thu 12 Mar | 08:06 (0.48m) / 19:52 (0.44m) | 01:23 (0.29m) / 14:35 (0.37m) | 60 |
Tide times in Jefferson Creek at South Bethany de
Discover the tide patterns in Jefferson Creek at South Bethany de. Essential data for all water sports enthusiasts and fishermen.
Discover what you can do in Jefferson Creek at South Bethany de based on the tide schedule:
High tide
Safe water levels for experienced jumpers
Ideal for boat departures and arrivals
Explore coastal caves and hidden spots
Low tide
Capture unique coastal landscapes
Find crabs in rocky areas
Collect worms and shellfish for fishing
The tidal patterns at Jefferson Creek at South Bethany de are predictable and follow lunar cycles. Neap tides occur around quarter moons, while spring tides happen during full and new moons.
Plan your activities around the tide schedule at Jefferson Creek at South Bethany de. Allow plenty of time to return before the tide turns.
Our tide predictions for Jefferson Creek at South Bethany de are calculated using astronomical data and local observations for maximum accuracy.