The Naval Constructor: A Vade Mecum of Ship Design for Students, Naval Architects, Shipbuilders and Owners, Marine Superintendents, Engineers and DraughtsmenD. Van Nostrand Company, 1914 - 819 sivua |
Kirjan sisältä
Tulokset 1 - 5 kokonaismäärästä 68
Sivu 1
... determine the number of cubic feet , or volume as it is called , in the immersed body of a ship , then , knowing as we do that there are 35 cubic feet of salt water in one ton , this volume divided by 35 will equal the weight or ...
... determine the number of cubic feet , or volume as it is called , in the immersed body of a ship , then , knowing as we do that there are 35 cubic feet of salt water in one ton , this volume divided by 35 will equal the weight or ...
Sivu 4
... determining areas bounded by a par- abola of the third order and the " five eight " rule applicable to the calculation of one of the subdivided areas are given in most text - books , but are omitted here as superfluous , Simpson's first ...
... determining areas bounded by a par- abola of the third order and the " five eight " rule applicable to the calculation of one of the subdivided areas are given in most text - books , but are omitted here as superfluous , Simpson's first ...
Sivu 8
... determined without reference to , or scaling from , the regular displacement curve . It will be seen that if A represents the area of water plane , that this surface multiplied by a layer 1 inch in thickness and divided by 12 will equal ...
... determined without reference to , or scaling from , the regular displacement curve . It will be seen that if A represents the area of water plane , that this surface multiplied by a layer 1 inch in thickness and divided by 12 will equal ...
Sivu 11
... determined from the displace- ment curve by calculating the area enclosed within the figure formed by the vertical line representing the draught of 5 ft . , the horizontal line equal to the tons displacement at this draught and the ...
... determined from the displace- ment curve by calculating the area enclosed within the figure formed by the vertical line representing the draught of 5 ft . , the horizontal line equal to the tons displacement at this draught and the ...
Sivu 13
... determining the trim of the vessel , and the various alterations thereof due to rearrangements of weights on board ... determination of its location above the centre of buoyancy has already been calculated , viz : the volume of ...
... determining the trim of the vessel , and the various alterations thereof due to rearrangements of weights on board ... determination of its location above the centre of buoyancy has already been calculated , viz : the volume of ...
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The Naval Constructor: A Vade Mecum of Ship Design for Students, Naval ... George Simpson Esikatselu ei käytettävissä - 2017 |
Yleiset termit ja lausekkeet
angle Awning Deck axis beam bending moment block block coefficient boat bridge-house bulkhead Buoyancy and Freeboard calculated Cargo-carrying cent centre of gravity classification societies COEFFICIENT OF FINENESS coko correction for sheer cubic feet cubic foot curve davits Deck at Side Deck Vessels deduct Depth and Length Diam diameter dimensions displacement draught First-class Sea-going Iron fitted Flanges foot forecastle frame FREEBOARD AMIDSHIPS WINTER Freeboard for First-class friction half-breadth HEIGHT OF FREEBOARD inertia keel keelson KNOTS less light Lloyd's Lloyd's Register load Main Deck Measured from Top MILLIMETRES moment of inertia Moulded Depth paddle steamer PERCENTAGE RESERVE BUOYANCY plating poop pounds riveted rope rudder rule Sailing Vessels Salt Water scantlings screw sheave shelter-deck ship Spar Deck speed steamers stem stern sternpost strake strength stress stringer Table of Reserve THICKNESS IN TWENTIETHS tonnage tons Top of Deck Vessels in Salt water line wood
Suositut otteet
Sivu 674 - Nothing in these rules shall interfere with the operation of any special rules made by the government of any nation with respect to additional station and signal lights for two or more ships of war or for vessels sailing under convoy...
Sivu 670 - A vessel of one hundred and fifty feet or upwards in length when at anchor shall carry in the forward part of the vessel, at a height of not less than twenty and not exceeding forty feet above the hull, one such light, and at or near the stern of the vessel, and at such a height that it shall be not less than fifteen feet lower than the forward light, another such light.
Sivu 664 - ... height above the hull than forty feet, a bright, white light, so constructed as to show an unbroken light over an arc of the horizon of twenty points of the compass...
Sivu 671 - ... (c) On the port side a red light so constructed as to show an unbroken light over an arc of the horizon of ten points of the compass, so fixed as to throw the light from right ahead to two points abaft the beam...
Sivu 666 - The highest and lowest of these lights shall be red, and the middle light shall be white, and they shall be of such a character as to be visible all around the horizon, at a distance of at least two miles.
Sivu 672 - Pilot vessels when engaged on their station on pilotage duty shall not show the lights required for other vessels, but shall carry a white light at the masthead, visible all around the horizon, and shall also exhibit a flare-up light or flare-up lights at short intervals, which shall never exceed fifteen minutes.
Sivu 667 - ... shall be exhibited, in sufficient time to prevent collision, so that the green light shall not be seen on the port side nor the red light on the starboard side.
Sivu 664 - ... points abaft the beam on the starboard side, and of such a character as to be visible...
Sivu 671 - ... from right ahead to two points abaft the beam on the port side, and of such a character as to be visible at a distance of at least two miles.
Sivu 670 - The white light required to be shown by this article may be fixed and carried in a lantern, but in such case the lantern shall be so constructed, fitted, and screened that it shall throw...