side When
Vasa was ordered, Dutch-born
Henrik Hybertsson ("Master Henrik") was shipwright at the Stockholm shipyard. On 16 January 1625, Master Henrik and business partner Arendt de Groote signed a contract to build four ships, two with a
keel of around and two smaller ones of . Master Henrik and Arendt de Groote began buying the raw materials needed for the first ships in 1625, purchasing timber from individual estates in Sweden as well as buying rough-sawn planking in
Riga, Königsberg (modern
Kaliningrad), and
Amsterdam. As they prepared to begin the first of the new ships in the autumn of 1625, Henrik corresponded with the king through Vice Admiral Klas Fleming about which ship to build first. The loss of ten ships in the Bay of Riga led the king to propose building two ships of a new, medium size as a quick compromise, and he sent a specification for this, a ship which would be long on the keel. Henrik declined, since he had already cut the timber for a large and a small ship. He laid the keel for a larger ship in late February or early March 1626. Master Henrik never saw Vasa completed; he fell ill in late 1625, and by the summer of 1626 he had handed over supervision of the work in the yard to another Dutch shipwright,
Henrik "Hein" Jacobsson. He died in the spring of 1627, probably about the same time as the ship was launched. After launching, work continued on finishing the upper deck, the sterncastle, the
beakhead and the rigging. Sweden had still not developed a sizeable sailcloth industry, and material had to be ordered from abroad. In the contract for the maintenance of rigging, French sailcloth was specified, but the cloth for the sails of
Vasa most likely came from Holland. The sails were made mostly of
hemp and partly of
flax. The rigging was made entirely of hemp imported from
Latvia through Riga. The king visited the shipyard in January 1628 and made what was probably his only visit aboard the ship. and two
gundecks In the summer of 1628, the captain responsible for supervising construction of the ship, Söfring Hansson, arranged for the ship's stability to be demonstrated for Vice Admiral Fleming, who had recently arrived in Stockholm from Prussia. Thirty men ran back and forth across the upper deck to start the ship rolling, but the admiral stopped the test after they had made only three trips, as he feared the ship would capsize. According to testimony by the ship's master, Göran Mattson, Fleming remarked that he wished the king were at home. Gustavus Adolphus had been sending a steady stream of letters insisting that the ship be put to sea as soon as possible.
Design and stability There has been much speculation about whether
Vasa was lengthened during construction and whether an additional gundeck was added late during the build. There is no evidence that
Vasa was substantially modified after the keel was laid. Ships contemporary to
Vasa that were elongated were cut in half and new timbers spliced between the existing sections, making the addition readily identifiable, but no such addition can be identified in the hull, nor is there any evidence for any late additions of a second gundeck. The king ordered seventy-two
24-pound guns for the ship on 5 August 1626, and this was too many to fit on a single gundeck. Since the king's order was issued less than five months after construction started, it would have come early enough for the second deck to be included in the design. The French
Galion du Guise, the ship used as a model for
Vasa, according to Arendt de Groote, also had two gundecks. There was some vacillation over the exact armament for
Vasa whilst she was being built. One issue was trying to source enough guns to meet the specification. The major options were a lower gun-deck battery of 24-pounders, with the upper gun-deck being 12-poundersversus having just 24-pounders on both the gun-decks.
Vasa was actually built with upper gun-deck ports sized for the smaller 12-pounders. The final decision, though, was a total of 56 24-pounders distributed over the two gun-decks. Not all of these guns had been delivered by the time she sailed; some gun carriages remained empty.
Vasa was an early example of a warship with two full-length gundecks, and was built when the theoretical principles of shipbuilding were still poorly understood. Two gundecks was a much more complicated compromise between seaworthiness and firepower than a single gundeck. The overall weight distribution, particularly the hull itself, was too top-heavy. This underlying fault was not possible to correct by adding more ballast, and might have required a major redesign to correct. Safety margins during the 17th century were also far below anything that would be acceptable today. Combined with the fact that 17th-century warships were built with intentionally high superstructures, used as firing platforms, this made
Vasa a risky undertaking.
Armament Vasa was built during a time of transition in naval tactics, from an era when boarding was still one of the primary ways of fighting enemy ships to an era of the strictly organized
ship-of-the-line and a focus on victory through superior gunnery.
Vasa was armed with powerful guns and built with a high stern, which would act as a firing platform in boarding actions for some of the 300 soldiers she was supposed to carry, but the high-sided hull and narrow upper deck were not optimized for boarding. She was neither the largest ship ever built, nor the one carrying the greatest number of guns. What made her arguably the most powerful warship of the time was the combined weight of shot that could be fired from the cannons of one side: , excluding
stormstycken, guns used for firing anti-personnel ammunition instead of solid shot. This was the largest concentration of artillery in a single warship in the Baltic at the time, perhaps in all of northern Europe, and it was not until the 1630s that a ship with more firepower was built. This large amount of naval artillery was placed on a ship that was quite small relative to the armament carried. By comparison, , a frigate built by the United States 169 years after
Vasa, had roughly the same firepower, but was over heavier. The
Constitution, however, belonged to a later era of naval warfare that employed the
line of battle tactic, where ships fought in a line of ships (or
line ahead) attempting to present the batteries of one side of each ship toward the enemy. The guns would be aimed in the same direction, and fire could be concentrated on a single target. In the 17th century, tactics involving organized formations of large fleets had still not been developed. Rather, ships would fight individually or in small improvised groups, and focused on boarding.
Vasa, though possessing a formidable battery, was built with these tactics in mind, and therefore lacked a unified
broadside with guns that were all aimed in roughly the same direction. Rather, the guns were intended to be fired independently and were arranged according to the curvature of the hull, so that the ship bristled with artillery in all directions, covering virtually all angles. The guns facing aft, the
stern chasers, were still not on board when the ship sank, however. Naval gunnery in the 17th century was still in its infancy. Guns were expensive and had a much longer lifespan than any warship. Guns with a lifetime of over a century were not unheard of, while most warships would be used for only 15 to 20 years. In Sweden and many other European countries, a ship would normally not "own" her guns, but would be issued armament from the armory for every campaign season. Ships were therefore usually fitted with guns of very diverse age and size. What allowed
Vasa to carry so much firepower was not merely that an unusually large number of guns were crammed into a relatively small ship, but also that the 46 main 24-pounder guns were of a new and standardized lightweight design. These were cast in a single series at the state gun foundry in Stockholm, under the direction of the Swiss-born founder Medardus Gessus. Two additional 24-pounders, of a heavier and older design, were mounted in the bows as
bow chasers. Four more heavy guns were intended for the stern, but the cannon foundry could not cast guns as fast as the navy yard could build ships, and
Vasa waited nearly a year after construction was finished for her armament. When the ship sailed in August 1628, eight of the planned armament of 72 guns had still not been delivered. All cannons during this time had to be made from individually made moulds that could not be reused, but
Vasas guns had such uniform precision in their manufacturing that their primary dimensions varied by only a few millimeters, and their bores were almost exactly . The remaining armament of
Vasa consisted of eight 3-pounders, six large-caliber
stormstycken (similar to what the English called
howitzers) for use during boarding actions, and two 1-pound
falconets. Also included on board were of
gunpowder and over 1,000 shot of various types for the guns. The gundecks of
Vasa are not parallel to the waterline, but follow the natural of the hull; this curve can be clearly seen in some of the photographs taken inside the ship. By the middle of the 17th century, warships had the gundeck set parallel to the waterline.
Vasas arrangement avoids any of the gunports having to be cut through the structural s, which also follow this curve. The later layout means that the lower gundeck gunports are a consistent amount above the waterline, avoiding the weight of guns and structure of that deck towards the bow and stern being unnecessarily high.
Construction method The bottom of
Vasas hull was built using the Dutch bottom-based method of construction (also referred to as the "Dutch flush" method). This differs from both
carvel and
clinker construction, though the finished appearance is that of the former, and the philosophy of the method is that of the latter. The start of the building process was the setting up of the keel, and the stem and stern post. Then, before any of the floors were installed, the planking of the bottom of the hull was shaped and fitted. The planks were assembled edge to edge (as in carvel), but at this stage of construction, there was no hull skeleton to dictate the shape of the hull (in contrast to carvel). Planks were held together with temporary cleats that were nailed to them. The plank shape determined the hull shape, in this region of the hull, so making this a "shell-first" construction method, like clinker, as opposed to "skeleton-first" (alternatively "frame-first or "frame-led"). Once the bottom of the hull planking was completed, the floors were shaped and fitted. Then the first futtocks were installed, and planking continued up the side of the hull in a normal frame-led carvel method. This construction method can be identified in
Vasa from the nail holes for the temporary cleats that held the bottom planks in position until the floors were fitted. The holes are filled with wooden plugs. The same bottom-based construction method was used for at least some of the medieval
cogs that have been investigated. It is also argued that this construction technique goes back to Romano-Celtic ships in Northern Europe in the early centuries AD. The significance of this method for Vasa is that the Dutch bottom-based system, as far as is known, did not involve plans put down on paper. European shipbuilders were still developing methods of recording the intended and actual shape of a hull. By the time that French and English shipyards took over from the Dutch as Europe's major shipbuilders (), the use of paper plans and hull models had become common.
Sailing rig Generally, masts, sails and rigging, if not lost in the original wrecking event, are much more exposed to contemporary salvage, degradation or loss than the lower hull components that usually make up the remains of wrecks. With
Vasa, virtually all of the lower fore and main masts have survived, much of the bowsprit and two
yards which are likely derived from the ship. To this are added the six sails (out of a complement of ten) that were not set on the maiden voyage, but stored below in the sailroom, the 412 gun tackle and rigging blocks (plus 143 pieces) recovered out of a possible outfit of about 600, the deadeyes used to adjust the tension in the shrouds, of which 125 were recovered,
parrel ribs and trucks, and ropes. By comparison, the
Red Bay wreck 24M (sunk, probably, 1565) yielded 48 standing blocks (equivalent to deadeyes) and 24 running blocks whilst the (sunk 1545) produced only blocks that were stored below decksand the recovered sail has yet to be investigated. Neither of these had surviving masts, with their size only being estimated from the dimensions of the s and steps.
Vasas sailing rig finds easily outnumber the aggregate total of finds from these two wrecks plus those from
La Belle (sunk 1686) and
Santo Antonio de Tanna (sunk 1697).
Masts and yards Vasa had three
masts: a foremast towards the bow of the ship, a mainmast near the middle and a mizzen mast in the after part of the ship. The fore- and mainmasts were built in three sections: a lower mast that was stepped on the stem and keel at the bottom of the ship's hull and passed through each of the decks; a topmast that was attached to the lower section; and a mast at the top. The topmasts and topgallants were salvaged soon after the sinking, while most of the lower sections of the main and foremasts largely survived to be salvaged in modern times. The mizzen mast consisted of only two sections: a mizzen, which was stepped on the upper gundeck, followed by a mizzen topmast. The
bowsprit was stepped against the front of the lower foremast through the bowsprit bitts, a heavy timber frame located on the upper gundeck. The bowsprit served as a point of attachment for several of the major stays that held up much of the standing rig. At the outer end of the bowsprit there was a spritsail topmast with a mast head to carry a flagstaff. The lower foremast was made from a single
pine tree with additional material to make the and the that were used to attach the s. The lower mainmast was assembled as a "made mast" from a number of pieces of timber that reinforced a central core, rather than from a single tree. A single-tree mast was the preferred choice at the time and was much stronger structurally. The shipyard in Stockholm had at least indirect access to timber from western Sweden at the time. "
Gothenburg masts" were considered among the best in Europe, but this source was not fully utilized by the Swedish navy until later in the 17th century. The made mast used for
Vasa was most likely supplied by Amsterdam-based merchants who dominated the European timber market at the time.
Sails When
Vasa sank, she only had four of her complement of ten sails bent onto the yards. The others were below deck in the sail room, neatly folded, tied and coiled, and placed in two large heaps. The weight of this mound of canvas presented problems to the excavators, but it probably contributed substantially to the survival of the sail cloth, which fared better towards the centre of the heaps. When excavated, the larger heap had to be carefully cut into two pieces so that it could be manoeuvred out of the sail room. The recovered sails consisted of the
spritsail, spritsail topsail, fore
topgallant, main , main topgallant and the mizzen . There was also a for the mizzen and a set of sails for a
ship's boat (a and a mainsail).The sails are of relatively light construction when compared to those of ships from later times. This fits with the Swedish navy in the 1620s operating generally only in the summer months when strong winds would not be expected. Two weights of canvas are used. The main course, mizzen bonnet and spritsail used the heavier one, which consisted of plain woven
hemp. The lighter type of canvas was made of a mixture of
flax and hemp, and used on the other recovered sails. Hemp is the stronger of the two fibres used. Square sails of ships from the time of
Vasa were not
reefed to reduce the amount of sail area in strong winds. An extra piece of sail, called a bonnet was instead fastened to the foot (lower edge) of the fore course in lighter winds. In stronger winds, instead of reefing, the bonnet was removed. Another action in stronger winds was to "half mast" the topsails. This involved partially lowering the topsails, which reduced the amount of drive they produced. With the sail lower down the topmast, the forces generated were lower down the mast, so putting less tension in the backstays. In contrast, the ship's boat sails recovered from the sail room carried reef points and reefing
cringles that would be familiar to any modern sailor of a traditionally rigged small boat. The reef points consist of short lengths of rope that pass through the fabric of the sail, with the rope locally unlaid so that it can be sewn to the surface of the sail. The reef points are used to tie up the unused part of the sail when the reefing cringles become the tack and clew of the reefed sail. This is the earliest known archaeological example of reef points.
Chainwales The s on
Vasa are positioned above the gunports for the upper gundeck. This was the typical Dutch arrangement for a ship with two decks until the 1620s. Thereafter, Dutch shipyards used a lower attachment point, between the two rows of gunports, as was already done in other European shipyards. The alignment of the chains that pass over the chainwales can be detected in the marks left in the wood (even though the iron components have corroded away). These alignments can be extrapolated to follow the route of each to the top of each lower mast, but with one exception at each chainwale. This non-conforming position would be suitable for a topmast . This extra rigging component had recently been introduced in European shipyards, with the earliest known instance in 1611. Giving greater support to the topmast with a backstay allowed the topsail to take a role as the main working sail on each mast. As
square rig evolved, the topsail became the first square sail to be set and the last to be furled. Before this change, the was the first sail to be set and the last to be taken in, with topsails simply providing extra sail area in lighter winds. This is a substantial change in sail-handling technique. The sails set on
Vasa at the time of her loss conform with this interpretation of the chainwalesthat
Vasa was preferentially using topsails over courses.
Vasa also has the main topsail halyard knighthead positioned a distance abaft the foot of the mast and angled to point at the main-topmast head. This gives further support to the main topmast, with the halyard having a secondary role as a backstay.
Blocks and deadeyes for both the shell and the sheaves. Though it is not visible in this picture, this example had the less common wrought iron strop to attach it to a fixed surface or the object being moved.
Blocks, or pulleys, are a means of redirecting the path of a rope or providing a mechanical advantage, either on its own or in combination with other blocks, to increase the force applied. The majority of blocks have a sheave which rotates on an axlethe rope that goes through the block fits into a groove cut in the sheave. The load in the rope is transferred from the axle to the shell of the block, which, at the time of
Vasa, has a rope strop (usually) or wrought iron strap which goes around the shell and is used to fasten the block to another object. More rarely, a block does not have a sheave. It is then termed a "dead block". Deadeyes are used in the standing rigging. These are the pieces of wood that, operating in pairs, allow adjustment of the length of shrouds or stays. A lanyard passes through a number of holes in each pairtightening the lanyard shortens the distance between the pair of deadeyes. Since natural fibre ropes can change in length depending on the amount of moisture in them, the standing rigging of a 17th-century ship needed much more adjustment than a more modern sailing vessel.
Steering Vasa was steered with a
whipstaff (as opposed to a wheel, which started to be used in the next century). This is a vertical lever that passes through a sliding bearing in the deck (the "rowle") and operates on the end of the helm (or ), which in turn is attached to the top of the . The steering position (the "steerage") is immediately in front of the entrance to the great cabin, on the upper gundeck. It occupies a double-height space, with of headroom to accommodate the length of the whipstaff. There are balustraded openings through which the helmsman has some view of the sails. The addition of a step across the width of the steerage suggests that this visibility had not turned out as planned and needed some last-minute adjustment. The helm is located a deck below, in the gunroom, which is the aftermost compartment on the lower gundeck. It passes through an opening in the stern to connect to the top of the rudder head.
Vasa represents the only complete surviving and investigated example of a whipstaff steering system. Study of this has changed the presumptions of how effective this method was, as a number of replicas of ships have been built with a whipstaff, and the system has been found to be fully effective. In operation, the steering system of
Vasa was able to apply 23 degrees of angle to the rudder. This is limited by the width of the hull structure where the helm moves from side to side in the gunroom. This angle is totally sufficient to steer the ship, as amounts greater than this create a lot of extra drag without increasing the turning moment significantly. At low angles, the whipstaff acts as a lever on the helm. At greater angles it works more as a push stick (rather like the tiller extension on a modern sailing dinghy). The steerage compartment was equipped with a bittacle, a wooden cabinet (made without any iron fastenings or components) which stood against the forward bulkhead on the centre-line. It has space for two compasses, one on each side of a central light. Each compass can be viewed through a glass window. This allows the helmsman to see the course being steered whichever side of the whipstaff they are standingthis type of steering requires the operator to be much more mobile than with a steering wheel, so a single compass would be ineffective. Given the limited visibility from the steering position, the compasses and a view of some of the sails were the only means of staying on the course ordered from the con position on the deck above. The option of steering with reference to a distant landmark or another ship is not available. The whipstaff started to be replaced with wheel steering sometime in the 18th century, though the precise date of this changeover is unknown.
Ornamentation As was the custom with warships at the time,
Vasa was decorated with sculptures intended to glorify the authority, wisdom and martial prowess of the monarch and also to deride, taunt and intimidate the enemy. The sculptures made up a considerable part of the effort and cost of building the ship. The symbolism used in decorating the ship was mostly based on the
Renaissance idealization of Roman and Greek antiquity, which had been imported from Italy through German and Dutch artists. Imagery borrowed from Mediterranean antiquity dominates the motifs, but also include figures from the Old Testament and even a few from
ancient Egypt. Many of the figures are in Dutch
grotesque style, depicting fantastic and frightening creatures, including mermaids,
wild men, sea monsters and
tritons. The decoration inside the ship is much sparser and is largely confined to the steerage and the great cabin, at the after end of the upper gundeck. Residues of paint have been found on many sculptures and on other parts of the ship. The entire ornamentation was once painted in vivid colors. The sides of the
beakhead (the protruding structure below the
bowsprit), the bulwarks (the protective railing around the weather deck), the roofs of the
quarter galleries, and the background of the after upper works were all painted red, while the sculptures were decorated in bright colors, and the dazzling effect of these was in some places emphasized with
gold leaf. Previously, it was believed that the background color had been blue and that all sculptures had been almost entirely gilded, and this is reflected in many paintings of
Vasa from the 1970s to the early 1990s, such as the lively and dramatic drawings of
Björn Landström or the painting by Francis Smitheman. In the late 1990s, this view was revised and the colors are properly reflected in more recent reproductions of the ship's decoration by maritime painter
Tim Thompson and the 1:10 scale model in the museum.
Vasa is an example not so much of the heavily gilded sculptures of early
Baroque art but rather "the last gasps of the
medieval sculpture tradition" with its fondness for gaudy colors, in a style that today would be considered extravagant or even vulgar. . The sculptures are carved out of
oak,
pine or
linden, and many of the larger pieces, like the huge long figurehead lion, consist of several parts carved individually and fitted together with bolts. Close to 500 sculptures, most of which are concentrated on the high stern and its galleries and on the beakhead, are found on the ship. The figure of
Hercules appears as a pair of pendants, one younger and one older, on each side of the lower stern galleries; the pendants depict opposite aspects of the ancient hero, who was extremely popular during antiquity as well as in 17th-century European art. On the stern are biblical and nationalistic symbols and images. A particularly popular motif is the lion, which can be found as
mascarons originally fitted on the insides of the gunport doors, grasping the royal coat of arms on either side, the figurehead, and even clinging to the top of the rudder. Each side of the beakhead originally had 20 figures (though only 19 have actually been found) that depicted
Roman emperors from
Tiberius to
Septimius Severus. The artistic quality of the sculptures varies considerably, and about four distinct styles can be identified. The only artist who has been positively associated with various sculptures is Mårten Redtmer, whose style has been described as "powerful, lively and naturalistic". He was responsible for a considerable number of the sculptures. These include some of the most important and prestigious pieces: the figurehead lion, the royal coat of arms, and the sculpture of the king at the top of the stern. Two of the other styles are described as "elegant ... a little stereotyped and manneristic", and of a "heavy, leisurely but nevertheless rich and lively style", respectively. The fourth and last style, deemed clearly inferior to the other three, is described as "stiff and ungainly" and was done by other carvers, perhaps even apprentices, of lesser skill. == Maiden voyage ==