Japanese Chart JP1265 Kanmon Ko – Wakamatsu
is corrected up to date. Admiralty standard nautical charts comply with Safety of Life at Sea (SOLAS) regulations and are ideal for professional, commercial and recreational use. Charts within the series consist of a range of scales, useful for passage planning, ocean crossings, coastal navigation and entering port. Mariners should always use the largest scale nautical chart appropriate to their needs. In particularly busy seaways such as the English Channel, Gulf of Suez and the Malacca and Singapore Straits, the standard nautical charts are supplemented by mariners routeing guides which provide advice on route planning in these complex areas.
Main Chart Details
- Chart Title: Kanmon Ko – Wakamatsu
- Publication Date: 10/05/2007
- Latest Edition date: 05/05/2016
- Chart Size: 976 x 685 (mm)
Chart Panel Details
- Panel Name Kanmon Ko – Wakamatsu
- Natural Scale 15000
- North Limit 33° 57′.10N
- East Limit 130° 52′.15E
- South Limit 33° 54′.11N
- West Limit 130° 46′.51E
- Panel Name Continuation of Wakamatsu
- Natural Scale 8000
- North Limit 33° 55′.30N
- East Limit 130° 49′.53E
- South Limit 33° 52′.33N
- West Limit 130° 44′.47E
Co-ordinates given are usually those of the four extremities of the chart. In many cases not all the area within will be fully charted*.Customers should check that the chart meets their requirements by viewing the chart image (where available).Mariners should always use the largest scale navigational chart available.
*Reasons may include
- Continuation of coverage of a small part outside the main area of chart coverage e.g a river.
- Inset plans and the chart title block and notes also take up space, therefore geographical information cannot be shown in this area.
- A need to refer to larger scale of chart, such waters are often “blued out” to avoid excessive maintenance work applying numerous NM corrections to an area of the small scale chart where the navigator will be using a larger scale chart.
- Coverage is better served from a different chart because of typical routeings.