Piping as a ceremony with side boys is a custom evolving from the days when visitors were hoisted aboard by use of the boatswain's chair. The pipe was used for the commands "hoist away" and "avast heaving." Members of the crew of the host ship did the hoisting. It is from the aid they rendered in tending the side that the custom originated of having a certain number of men, ("side boys,") present. In time it became a courtesy for high ranking officers and diplomatic officials to honored by sideboys and piping ceremony.
Jul 3, 2014
Jul 2, 2014
Arch of Swords
In the past, it was also required to have permission to marry in uniform. This has become more popular of late, and the arch of swords has been adopted by wedding planners everywhere as something a little out of the ordinary. This custom of forming an arch, with the sword’s cutting edges upward in the “quinte” or fifth guard position, symbolizes the guarding of the couple as they embark on married life.
Watch a marriage of an officer of Indian navy in my native place.
Watch a marriage of an officer of Indian navy in my native place.
Mar 8, 2014
Coxswain and Boatswain
Today, any boat used by a ship's Captain is referred to as the gig. Embarked Admirals use a boat referred to as the barge. Skiffs are generally aluminum and are used for painting the sides of the ship.
In common use, boatswain is usually shortened to bo'sun. A ship's bo'sun is the senior member of the deck hands. The coxswain mans the helm (rudder) of a ship's boat when underway.
A coxswain or
cockswain was at first the swain (boy servant) in charge of the small cock or
cockboat that was kept aboard for the ship's captain and which was used to row
him to and from the ship. The term has been in use in England dating back to at
least 1463. With the passing of time the coxswain became the helmsman of any
boat, regardless of size.
Naval Time and Watches
Ship
Organisation
There is no room for passengers
in a warship. Everyone on board must have a job to do and jobs must be so
arranged that they do not overlap. If one pair of hands or one brain in a ship
is idle when it shouldn't be, that ship is running less efficiently than it
should.
By tradition and by necessity,
sailors are jacks-of-all-trades, but in this age of complicated equipment and
crowded ships it has also become necessary for a sailor to become master of at
least one trade. A ship is organized in such a way that the men of all trades
work together to form a team. That is, the work of the men of one trade
complimets or adds to that of all the other trades and so on, until everyone is
working efficiently and all jobs are being done. It is necessary then. to allocate
certain particular jobs to men of certain trades.
Naval Time and Watches
In a ship, the day is divided into watches, and the watches are
divided into half-hour periods. At the end of every half hour period the ship's
bell is struck. The 24-hour clock is used instead of the usual 12-hour variety.
Watches are as follows;
0000 - 0400 middle watch
0400 - 0800 morning watch
0800 - 1200 forenoon watch
1200 - 1600 afternoon watch
1600 - 1800 first dog watch
1800 - 2000 last dog watch
2000 - 0000 first watch
Each of
the 4-hour watches begins and ends with 8 bells. At the end of the first half
hour of the watch 1 bell is struck; at the end of the second half hour 2 bells;
the third half hour, 3 bells, and so on until at the end of the eighth half
hour, or the end of the watch, 8 bells are struck.
Jan 20, 2014
Shifting Colors
When a
ship is anchored or moored between 8.00 a.m and sunset, she fly her ensign at
the flagstaff and the jack at the jack staff. When underway, the ensign is
flown at the gaff (the diagonal spar projecting aft from the mast) and the jack
is not flown at all. The process of changing from one display to the other is
known as shifting colors.
- The ensign at the flagstaff and the jack at the jackstaff are hauled down smartly (rapidly).
- The steaming ensign is run up smartly to the gaff.
- Any flags or pennants that are displayed only when not under way, such as award pennants or the personal flag or pennant of an officer who is not aboard, are hauled down smartly.
- The call sign is broken at the signal yard.
As the ship
prepares to get under way, sailors are positioned at the bow, fantail, and
bottom of the halyards running to the gaff and the signal yards. The
"steaming" ensign is attached--or "bent on"--to its halyard
in preparation for hoisting. The ship's call sign and any other prescribed
signal flags are run up, packed to be "broken" at the right moment.
At the instant that the last mooring line leaves the pier or buoy, or the
moment that the anchor is aweigh, the boatswain's mate of the watch blows a long
blast on his whistle and passes the word, "Underway--shift colors."
Immediately and simultaneously:
Oct 19, 2013
How sailing works
Sailing is motion across a body of water in a sailing ship, or smaller boat,
powered by wind.
How sailing works
The force of the wind is used to create motion by using one or more sails. The
movement of air over the sails acts in the same way as air moving over an
aircraft's wing. Just like on an airplane, air flowing over the sail is
deflected and accelerated. This generates lift, which acts to pull the sail,
and thus the boat ahead, but also slightly downwind. The downwind component is
offset by an underwater hydrofoil (centerboard or keel), whose shape resists
lateral movement while offering little resistance to forward motion. Without a
keel or centerboard, sailing upwind or across the wind would be virtually
impossible. (Other sailing hydrofoils include daggerboards and leeboards).
The lifting force of the sails also acts to lean the boat over to one side,
which is called heeling. This is counteracted by ballast, either in the form of
dense material located in the keel (usually lead or iron) or in the form of
human or water ballast located near the windward rail.
Today, for most people, sailing is a hobby. Pleasure sailing can be further
divided into two areas: Racing and Cruising.
In ancient times (see Odysseus), ships used following or rear-quarter winds.
Therefore, they had to wait in port or at sea for the right wind directions.
Turning a sailing boat
There are four basic maneuvers a sailing boat can perform while underway. They
are:
Tacking is turning the boat so that the bow passes through the eye of the wind
(or "no go zone").
Gybing (or wearing) is turning the boat so that the stern of the boat turns
through the wind. Gybing causes the boom to swing from one side to the other,
sometimes rapidly, as the wind catches the leach of the mainsail on its new
upwind side.
Heading up is turning the boat to sail closer to the direction the wind is
coming from.
Bearing away (or falling off) is turning away from the direction the wind is
coming from.
Course to Steer - Turn the boat using the wheel or tiller to the desired course
to steer. See points of sail. This may be a definite bearing (e.g steer 270
degrees), or towards a landmark, or at a desired angle to the apparent wind
direction.
Trim - This is the fore and aft balance of the boat. The aim is to adjust the
moveable ballast (the crew!) forwards or backwards to achieve an 'even keel'.
On an upwind course in a small boat, the crew typically sit forward, when
'running' it is more efficient for the crew to sit to the rear of the boat. The
position of the crew matters less as the size (and weight)of the boat
increases.
Balance - This is the port and starboard balance. The aim, once again is to
adjust weight 'inboard' or 'outboard' to prevent excessive heeling.
Sail - Trimming sails is a large topic. However simply put, a sail should be
pulled in until it fills with wind, but no further than the point where the
front edge of the sail (the luff) is exactly in line with the wind.
Centreboard - If a moveable centreboard is fitted, then it should be lowered
when sailing "close to the wind" but can be raised up on downwind
courses to reduce drag. The centreboard prevents lateral motion and allows the
boat to sail upwind, and also provides stability to keep the boat from rolling
over. A boat with no centreboard will instead have a heavy permanent keel built
into the bottom of the hull, which serves the same purposes.
Running
Downwind
Sailing the boat within 30 degrees of straight downwind is called a run. This
is the easiest point of sail, but it can also be the most dangerous. Sailing
upwind gives you the everpresent possibility of stopping the boat easily by
steering into the wind. Running gives a sailor no such easy out. Be careful and
either use your boom vang or adjust the mainsheet to prevent an accidental
gybe.
Beating an upwind
course
A basic rule of sailing is that it is not possible to sail directly into the direction the wind is coming from. Generally a cruising boat can sail 45 degrees off the wind, a racing boat may aproach 35 degrees. However since it is often necessary to move towards the wind direction, it is necessary to 'beat' upwind.
Beating is simply a series of 'tacks' where the boat sails as close to the wind on each tack as possible, and then switches sides and repeats the process. By this method, it is possible to travel directly into the wind. The heavier the wind the harder the beat, and since you are sailing into oncoming waves at an angle, boat movement can be heavy. This movement can feel like the boat is beating its hull into the waves, hence the name. Since the boat is sailing over oncoming waves, a beat will feel faster than its actually moving.
During a beat, it is important to watch your heading, since the wind will tend to push an unbalanced boat into or away from the wind, depending on the balance problem. If you find yourself having to overcorrect at the helm for sail pressure into the wind, then you are in a condition called weatherhelm, and you are actually slowing the boat with your rudder. To correct this, reduce sail.
A basic rule of sailing is that it is not possible to sail directly into the direction the wind is coming from. Generally a cruising boat can sail 45 degrees off the wind, a racing boat may aproach 35 degrees. However since it is often necessary to move towards the wind direction, it is necessary to 'beat' upwind.
Beating is simply a series of 'tacks' where the boat sails as close to the wind on each tack as possible, and then switches sides and repeats the process. By this method, it is possible to travel directly into the wind. The heavier the wind the harder the beat, and since you are sailing into oncoming waves at an angle, boat movement can be heavy. This movement can feel like the boat is beating its hull into the waves, hence the name. Since the boat is sailing over oncoming waves, a beat will feel faster than its actually moving.
During a beat, it is important to watch your heading, since the wind will tend to push an unbalanced boat into or away from the wind, depending on the balance problem. If you find yourself having to overcorrect at the helm for sail pressure into the wind, then you are in a condition called weatherhelm, and you are actually slowing the boat with your rudder. To correct this, reduce sail.
Reducing
sail
An important safety aspect of sailing is to adjust the amount of sail to suit the wind conditions. As the wind speed increases the crew should progressively reduce the amount of sail. On a small boat with only jib and mainsail this is done by furling the jib and by partially lowering the mainsail, a process called 'reefing the main'.
Reefing basically means reducing the size of a sail without changing them. Ideally reefing does not only result in a reduced sail area but also in a lower center of effort from the sails, keeping the boat more upright.
There are three core methods of reefing the mainsail: - Slab reefing, which involves lowering the sail by about one-quarter to one-third of its luff length and tightening the lower part of the sail using an outhaul through a cringle at the new clew, and hook through a cringle at the new tack. - In-mast (or on-mast) roller-reefing. This method rolls the sail up around a vertical foil either inside a slot in the mast, or affixed to the outside of the mast. It requires a mainsail with either no battens, or newly-developed vertical battens. - In-boom roller-reefing, with a horizontal foil inside the boom. This method allows for standard- or full-length horizontal battens.
Mainsail furling systems have become increasingly popular on cruising yachts as they can be operated shorthanded and from the cockpit in most cases, however, the sail can become jammed in the mast or boom slot if not operated correctly. Mainsail furling is almost never used while racing because it results in a less efficient sail profile. The classical slab-reefing method is the most widely used. Mainsail furling has an additional disadvantage in that its complicated gear may somewhat increase weight aloft. However, as the size of the boat increases, the benefits of mainsail roller furling increase dramatically.
Sail trimming
As noted above, sail trimming is a large subject. Basic control of the mainsail consists of setting the sail so that it is at an optimum angle to the wind,(i.e. no flapping at the front, and tell tales flowing evenly off the rear of the sail).
Two or more sails are frequently combined to maximise the smooth flow of air. The sails are adjusted to create a smooth laminar flow over the sail surfaces. This is called the "slot effect". The combined sails fit into an imaginary aerofoil outline, so that the most forward sails are more in line with the wind, whereas the more aft sails are more in line with the course followed. The combined efficiency of this sail plan is greater than the sum of each sail used in isolation.
More detailed aspects include specific control of the sail's shape, e.g.:
reefing, or reducing the sail area in stronger wind altering sail shape to make it flatter in high winds raking the mast when going upwind (to tilt the sail towards the rear, this being more stable) providing sail twist to cope with gusty conditions
Heeling
When a boat rolls over to one side under wind pressure, it's called 'heeling'. As a sailing boat heels over beyond a certain angle, it begins to sail increasingly inefficiently. Several forces can counteract this movement.
The buoyancy of that part of the hull which is being submerged tends to bring the boat upright.
Pressure on the centreboard or keel moving at a slight 'leeway' angle through the water tends to balance the rolling force.
An important safety aspect of sailing is to adjust the amount of sail to suit the wind conditions. As the wind speed increases the crew should progressively reduce the amount of sail. On a small boat with only jib and mainsail this is done by furling the jib and by partially lowering the mainsail, a process called 'reefing the main'.
Reefing basically means reducing the size of a sail without changing them. Ideally reefing does not only result in a reduced sail area but also in a lower center of effort from the sails, keeping the boat more upright.
There are three core methods of reefing the mainsail: - Slab reefing, which involves lowering the sail by about one-quarter to one-third of its luff length and tightening the lower part of the sail using an outhaul through a cringle at the new clew, and hook through a cringle at the new tack. - In-mast (or on-mast) roller-reefing. This method rolls the sail up around a vertical foil either inside a slot in the mast, or affixed to the outside of the mast. It requires a mainsail with either no battens, or newly-developed vertical battens. - In-boom roller-reefing, with a horizontal foil inside the boom. This method allows for standard- or full-length horizontal battens.
Mainsail furling systems have become increasingly popular on cruising yachts as they can be operated shorthanded and from the cockpit in most cases, however, the sail can become jammed in the mast or boom slot if not operated correctly. Mainsail furling is almost never used while racing because it results in a less efficient sail profile. The classical slab-reefing method is the most widely used. Mainsail furling has an additional disadvantage in that its complicated gear may somewhat increase weight aloft. However, as the size of the boat increases, the benefits of mainsail roller furling increase dramatically.
Sail trimming
As noted above, sail trimming is a large subject. Basic control of the mainsail consists of setting the sail so that it is at an optimum angle to the wind,(i.e. no flapping at the front, and tell tales flowing evenly off the rear of the sail).
Two or more sails are frequently combined to maximise the smooth flow of air. The sails are adjusted to create a smooth laminar flow over the sail surfaces. This is called the "slot effect". The combined sails fit into an imaginary aerofoil outline, so that the most forward sails are more in line with the wind, whereas the more aft sails are more in line with the course followed. The combined efficiency of this sail plan is greater than the sum of each sail used in isolation.
More detailed aspects include specific control of the sail's shape, e.g.:
reefing, or reducing the sail area in stronger wind altering sail shape to make it flatter in high winds raking the mast when going upwind (to tilt the sail towards the rear, this being more stable) providing sail twist to cope with gusty conditions
Heeling
When a boat rolls over to one side under wind pressure, it's called 'heeling'. As a sailing boat heels over beyond a certain angle, it begins to sail increasingly inefficiently. Several forces can counteract this movement.
The buoyancy of that part of the hull which is being submerged tends to bring the boat upright.
Pressure on the centreboard or keel moving at a slight 'leeway' angle through the water tends to balance the rolling force.
Raising the centreboard can paradoxically increase leeway, and therefore reduce heeling. A weighted keel provides additional force to right the boat. The crew may move onto the high (upwind) side of the boat, called hiking, changing the centre of gravity significantly in a small boat. They can trapeze where the boat is designed for this. The underwater shape of the hull relative to the sails can be designed to make the boat tend to turn upwind when it heels excessively: this reduces the force on the sails, and allows the boat to right itself.The boat can be turned upwind to produce the same effect.Wind can be spilled from the sails by 'sheeting out', i.e. loosening the sail.
Lastly, as the boat rolls farther over, wind spills from the top of the sail.
Most of the above effects can be used to right a heeling boat and to keep the boat sailing efficiently: if however the boat heels beyond a certain point of stability, it can capsize
Most of the above effects can be used to right a heeling boat and to keep the boat sailing efficiently: if however the boat heels beyond a certain point of stability, it can capsize
Oct 14, 2013
What is Seamanship ?
Seamanship is
the art of operating a ship or boat. It involves topics and development of
specialised skills including: navigation and international maritime law; weather, meteorology and forecasting; watch keeping, ship-handling
and small boat handling; operation of deck equipment, anchors and cables; rope work and line handling; communications; sailing; engines; execution of evolutions such
as towing; cargo handling equipment, dangerous cargoes and cargo storage;
dealing with emergencies; survival at sea and search
and rescue; fire fighting.
The degree of knowledge needed within these areas is dependent
upon the nature of the work and the type of vessel employed by a mariner. However,
the practice of good seamanship should be the goal of all. The deep meaning of
the word seamanship derives from the word seaman & ship. Thus it is the
seaman who makes a good ship through his qualifications. Above all, Seamanship
means Safety onboard and this is managed through continuous training and
implementation of good working practices.
Often Seamanship is described as nothing but common
sense.
Quarter gallery
A quarter gallery is an architectural feature of the stern of a sailing ship from around the 16th to 19th century. Quarter galleries are a kind of balcony, typically placed on the side of the stern castle. A high, tower-like structure at the back of a ship that housed the officer's quarters. They function as a firing platform for the ship's marines and sharpshooters during boarding actions. The galleries also provided a structure that was ideally suited for attaching decoration and often bore carved wooden sculptures.
Jul 20, 2013
Captain's Mast
The "Captain's Mast" is a disciplinary
event hailing from the age of sail where a ship's captain and other officers
publicly shame and sentence sailors who have broken some rule in a manner
severe enough to warrant public discipline but not enough to require a full
legal proceeding.
Before steam engines became standard in the nineteenth
century the most efficient means of moving a ship across the sea was to harness
the power of the wind by means of attaching a canvas sail to a wooden pole
known as the mast. Larger ships would have several masts, and the number of
masts as well as their configuration and the shapes of their many sails came to
define the types of the various sailing ships, from the clipper to the
man-o-war.
Sailor's lives depended on the
function of these masts and sails, and much of the maintenance work needed to
keep ships in working order involved these essential components of period
vessels. It is no surprise then that they came to be a focal point of naval
culture and a convenient meeting place for the crew when one was needed.
The Captain's Mast appears to have
come about as a result of the need to maintain discipline and to address the
majority of the crew at once. Meetings of this nature were held under the
mainmast, and eventually any crew meeting came to be known as a mast. The masts
eventually began to be named according to the officiating officer's rank, and
so there are admiral's masts and chaplain's masts.
The Captain's version was
traditionally held prior to religious services and served as both a
disciplinary event in front of the entire crew and as a forum where exemplary
behavior could be praised or official news shared with the crew. Once it became
so common to be held as a tradition, even as the vessels switched from sail to
steam power the event was still held in a convenient meeting area, and given
the same name.
Jul 2, 2013
How submarine work
A submarine or a ship can float because the weight of water that it
displaces is equal to the weight of the ship. This displacement of water
creates an upward force called the buoyant force and acts opposite
to gravity, which would pull the ship
down. Unlike a ship, a submarine can control its buoyancy, thus allowing it to
sink and surface at will.
To control its buoyancy, the submarine has ballast tanks and auxiliary, or trim tanks, that can be alternately
filled with water or air (see animation below). When the submarine is on the
surface, the ballast tanks are filled with air and the submarine's overall
density is less than that of the surrounding water. As the submarine dives, the
ballast tanks are flooded with water and the air in the ballast tanks is vented
from the submarine until its overall density is greater than the surrounding
water and the submarine begins to sink (negative
buoyancy). A supply of compressed air is maintained aboard the submarine
in air flasks for life support and for use with the ballast tanks. In addition,
the submarine has movable sets of short "wings" called hydroplanes on the stern (back)
that help to control the angle of the dive. The hydroplanes are angled so that
water moves over the stern, which forces the stern upward; therefore, the
submarine is angled downward.
To keep
the submarine level at any set depth, the submarine maintains a balance of air
and water in the trim tanks so that its overall density is equal to the
surrounding water (neutral buoyancy).
When the submarine reaches its cruising depth, the hydroplanes are leveled so
that the submarine travels level through the water. Water is also forced
between the bow and stern trim tanks to keep the sub level. The submarine can
steer in the water by using the tail rudder to turn starboard (right) or port
(left) and the hydroplanes to control the fore-aft angle of the submarine. In
addition, some submarines are equipped with a retractable secondary propulsion motor that
can swivel 360 degrees.
When the submarine surfaces, compressed air flows from the air
flasks into the ballast tanks and the water is forced out of the submarine
until its overall density is less than the surrounding water (positive buoyancy) and the submarine
rises. The hydroplanes are angled so that water moves up over the stern, which
forces the stern downward; therefore, the submarine is angled upward. In an
emergency, the ballast tanks can be filled quickly with high-pressure air to
take the submarine to the surface very rapidly.
Apr 22, 2013
Port holes
The word "port
hole" originated during the reign of Henry VI of England
A French shipbuilder named James Baker was commissioned to solve the
problem. He put small doors in the side of the ship and mounted the cannon
inside the ship. These doors protected the cannon from weather and were opened
when the cannon were to be used. The French word for "door" is
"porte" which was later Anglicized to "port" and later went
on to mean any opening in the ship's side, whether for cannon or not.
Mar 15, 2013
Mediterranean Mooring
In some harbours where there is sufficient room to berth many ships alongside, ships may be obliged to berth at right-angles to a jetty, with their sterns secured to it by berthing lines and their anchors(s) laid out ahead.
This type of mooring can only be employed where there is a negligible range of tide, and is commonly used in Mediterranean ports; for this reason it is often called the Mediterranean (or Med) moor.
The major considerations are to veer sufficient cable so that the ship can swing clear of other ships at the berth when leaving, to lay the anchors sufficiently far apart to make the ship more secure in wind, and to ensure the anchors do not foul those of other ships.
In a shallow harbour it is recommended that a frigate veers about 4 shackles of cable on each anchor, and that cables are spanned with and included angle of about 50 degrees, so as to make the ship more secure in a wind. It is obvious, however, that to berth will not be safe if a gale blows from abeam.
If such weather is forecast it is advisable to put to sea or seek a sheltered anchor berth. Ships fitter with a single anchor can, in theory, carry out a Med moor; however, the single anchor will hold the bows steady only in benign weather conditions.
Dec 23, 2012
Why it is Port and Starboard side?
There are different explanations heard during my career in the navy.
Port side mean the left side when looking forward from the stern of the boat. Starboard means the right side when looking forward from the stern. Starboard is originally an anglo-saxon word literally meaning "right-side" or "right-board" and larboard is from the french baboard or the anglo-saxon bœc-bord. Anyway, there are discrepancies about what how port came from larboard, but basically it has stuck because larboard was too easily confused with starboard.
The another believe is, Centuries ago, what we now refer to as a rudder was lashed to the right side of the vessel. It was called a 'larboard.' When the vessel came into port, the captain didn't have much choice about which side to use since he could damage his steering gear if he had trouble. This must have led to term port side and larboard side..
Another interesting explanation is that Starboard was a walking board that hung off the right side of the boat. In the ancient days, navigators were depended on stars for navigational aid. The navigator of the ship used this Starboard to walk out where he could see the stars without the sails, masts and boat lights getting in the way. When the ship came in to Port, it could not port on the right side of the ship, or it would break the Starboard. So the left side of the ship was known as the Port side, and the right side was called the Starboard side.
Remember the lighting scheme of Port and Starboard? The Port light of an approaching vessel is RED; (Red Port wine). The red light tells you to give way to the other vessel. The Starboard light is GREEN which means you have right of way.
It is interesting to note that this practice carried over into aviation. Passengers almost always enter planes from the left, or port, side even though aircraft now have full sized doors on both sides
Oct 29, 2012
Sally Ship
"Sally ship" was not a ship but a method of loosening a vessel that ran aground from the mud holding her fast. In the days before sophisticated navigation equipment, ships ran aground much more often than today. A grounded ship could be freed with little or no hull damage if she could be rocked out of her muddy predicament.
To free her, the order was given to "sally ship". The crew gathered in a line along one side and then ran from port to starboard and back and forth until the vessel began to roll. Often the rolling broke the mud's suction and she could be pulled free and gotten underway.
Oct 18, 2012
Why is the toilet onboard ship called the “head”?
The term comes from the days of sail, because wind would blow from the
rear of the ship to the front. The bathroom would be located at the
front, "Head", of the ship to carry the foul smell of excrement away
from the crew.
On such old ships the “out house” was placed at the bow of the ship. These necessary rooms were placed in that forward area where the ship slanted inward to form the bow, which meant the toilet was above the ocean and not actually above the ship. Therefore, when nature called and you needed to use one of these facilities, you went forward to the bow or the “head“ of the vessel. Thus, the outhouse/toilet came to be called the "head".
On such old ships the “out house” was placed at the bow of the ship. These necessary rooms were placed in that forward area where the ship slanted inward to form the bow, which meant the toilet was above the ocean and not actually above the ship. Therefore, when nature called and you needed to use one of these facilities, you went forward to the bow or the “head“ of the vessel. Thus, the outhouse/toilet came to be called the "head".
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