Found 2604 related files. Current in page 1
Alpha GPC (L-alphaglycerophosphatidylcholine, also known as choline alfoscerate) is a phospholipid metabolite found concentrated in neuronal membranes. Derived from lecithin, Alpha GPC is extremely well absorbed and crosses the blood brain barrier. In the brain, Alpha GPC supports brain function and learning processes by directly increasing the synthesis and secretion of acetylcholine.* Alpha GPC supports neuron health and improves signal transmission by serving as a precursor to membrane phospholipids.
To Riggins Hill and Fort Defiance “Battle of Shiloh” Courtesy Library of Congress CLARKSVILLE MURFREESBORO S N. Scroll flask and .36 caliber Navy Colt bullet mold found at Camp Trousdale site in Sumner County. Courtesy Pat Meguiar . ST ING PR 41 Stones River National Battlefield and Cemetery Oaklands Mansion 41 T. EGE S COLL Recapture of Clarksville KNOXVILLE 441 Evergreen Cemetery 231 40 Clarksville in the Civil War Surrender of Clarksville 275 CE S MER COM Rutherford County Courthouse T. 41 96 Old Gray Cemetery Mabry-Hazen House 40 231 Bleak House 24 68 Crew repairing railroad track near Murfreesboro after Battle of Stones River, 1863 – Courtesy Library of Congress 68 231 79 ALT 70 M I SSISS 104 Tennessee City (Camp Gillem/ Irish Shanty) New Johnsonville Clarksburg Fighting on the Tennessee River (Birdsong Marina) 70 Parker’s Crossroads (Multiple Sites) 48 McNairy’s Attack Dickson (Clement RR 96 Museum) 40 100 40 Centerville (Hickman Co. Courthouse) 87 412 19 Salem Cemetery Battlefield 61 Brownsville 59 Casey Jones Village 223 Covington Denmark (Presbyterian Church) Forts Randolph and Wright 178 13 100 Henderson 138 51 Doe Creek School 18 128 64 64 64 40 Collierville (Battle of Collierville and Chalmers’s Raid) LaGrange Battle of Moscow Grand Junction 57 Shiloh NMP Fallen Timbers Johnston’s Last Bivouac Davis Bridge Battlefield State Park Savannah (Cherry Mansion and Tennessee River Museum) Lawrenceburg Collinwood ALT 41 55 Five Points Lairdland Farm House Colt revolving rifle, used Nov. 3, 1863, by 2nd Iowa Cav. at Collierville, Shelby Co. Courtesy Norm Flayderman 240 64 Elkton Bridge Harlinsdale Farm Confederate Park 231 Sherman’s Crossing Suck Creek Lotz House FRANKLIN 280 Robbinsville (Civil War in Graham County) 19 Allison-Deaver House Franklin (Dixie Hall) Thomas’s Legion Macon Co. Historical Museum Cashiers (Zachary-Tolbert House) 19 CHATTANOOGA To Suck Creek E ANE CARNTON L Union Lt. Charles R. Ellet approaches Memphis to demand surrender, Harper’s Weekly, June 28, 1862 H R EW IS L To Winstead Hill Bleak House, Knoxville, circa 1874 Courtesy Knoxville Chapter 89, United Daughters of the Confederacy 129 R I V P E 31 Tellico Plains Waynesville (Multiple Sites) “Execution of Jacob Harmon and His Son Henry, Unionist bridge-burners,” from Parson Brownlow’s Book (1862) BU RG IV AV E E Kurz and Allison, “Battle of Franklin” Courtesy Williamson County Historical Society R Confederate Eastern Flank Carnton Plantation Confederate Cemetery National Landmark Occupied Chattanooga Ross’s Landing EESB ORO R D. Collins Farm McGavock’s Grove 64 Old Fort (Swannanoa Gap) 221 74 Coker Creek 40 76 Steamboats tied up at Ross’s Landing in Chattanooga, with Cameron Hill looming in the background Courtesy Library of Congress R Carson House 70 75 R URF R Vance Birthplace 70 28 Madisonville (Monroe County Courthouse) Niota Depot 27 T 55 Marshall (Col. Allen House) 321 Capt. Edwin Rocky Ford Engagement Mars Hill College 411 51 78 Hot Springs 25 (Warm Springs Hotel) Maggie Valley (Kirk’s Raid) Cleveland (Museum Center) (See Inset) Chattanooga Creek 19E (Multiple Sites)
1340cm in-line 4-cylinder fuel-injected, liquid-cooled DOHC engine built to deliver a broad wave of torque for effortless acceleration. Suzuki Composite Electrochemical Material (SCEM) cylinder plating improves heat transfer, durability and ring seal. Suzuki Clutch Assist System (SCAS) serves as back-torque-limiting system for smooth downshifts and also contributes to a light clutch pull. Optimized 6-speed transmission; oil spray to the 4th, 5th and 6th gears reduce wear and mechanical noise during highway cruising. Suzuki’s advanced fuel-injection system with tapered, 44mm double-barrel Suzuki Dual Throttle Valve (SDTV) induction improves combustion efficiency and makes throttle response feel more natural. Two 12-hole ﬁne-spray injectors on each throttle body improve fuel atomization for better combustion efﬁciency and while reducing fuel consumption. Suzuki Pulsed-secondary AIR-injection (PAIR) system ignites unburned hydrocarbons (HC) and reduces carbon monoxide (CO) emissions. Suzuki Drive Mode Selector (S-DMS) lets riders select engine settings to match preferences or riding conditions. Advanced aerodynamics offering superb wind protection both for normal and completely tucked-in seating positions. KYB inverted cartridge forks feature Diamond-Like Carbon (DLC) coating on the 43mm stanchion tubes to reduce friction and improve reaction to small surface irregularities. The front forks and the single rear shock absorber both have fully adjustable spring preload, compression and rebound damping. 3-spoke cast-aluminum-alloy wheels shod with 120/70ZR17M/C (58W) front and 190/50ZR17M/C (73W) rear radial tires. Idle Speed Control (ISC) system improves cold starting and helps maintain stable engine idle under various conditions. Speciﬁcations, appearance, colors (including body color), equipment, materials and other aspects of the “SUZUKI” products shown in this catalogue are subject to change by Suzuki at any time without notice, and they may vary depending on local conditions or requirements. Some models are not available in some regions. Each model may be discontinued without notice. Please inquire at your local dealer for details of any such changes. Always wear a helmet, eye protection and protective clothing. Enjoy riding safely. Read your Owner's Manual carefully. Never ride under the inﬂuence of alcohol or other drugs. PRINTED IN JAPAN Hayabusa (GSX1300RA) Leaﬂet 99999-A0021-141 AUG.'13 300 Takatsuka-cho, Minami-ku, Hamamatsu City, JAPAN 432-8611
When Suzuki engineers began designing the GSX1300R they set out to produce a motorcycle so advanced that it didn’t fit in any established categories. A motorcycle with breathtaking acceleration, nimble handling, and world-class fit and finish. A machine so advanced it demanded a new performance category: Ultimate Sport. With Suzuki’s experience in building high-performance motorcycles, meeting the engine performance goals and building an excellent chassis wouldn’t be a problem. But to make this kind of performance seem effortless would be the ultimate challenge. One of the engineers recalled seeing the incredible flight of a small Falcon indigenous to Japan called Hayabusa. The Hayabusa is not the biggest or strongest bird in Japan, but it has the amazing ability to slice through the air reaching speeds of over 186 mph, making normal flight seem effortless. The engineer realized he had discovered the key element to the design. Make the bike able to slice through the air like a Hayabusa and normal performance would be almost effortless. It would be the most aerodynamic Suzuki ever built and it would be called the Hayabusa. Suzuki engineers used an integrated design approach with careful thought given to engine type, size, placement, as well as rider position and airflow over every part of the bike. Maximum aerodynamic efficiency required a precise fairing shape which could not be achieved with conventional headlights and turn signals. By blending the front turn signals in the fairing and using a unique projector beam headlight, the CdA became the lowest of any Suzuki ever produced. The turn signals also help force air into the ram-air intake tracts which have been carefully placed near the point of maximum air pressure. Meeting the performance goal required a powerful yet compact, liquid-cooled, inline four-cylinder engine – the most powerful four-cylinder ever built by Suzuki. Based on experience from unlimited-class road racing, the engine developed some impressive specifications: 1298cc, liquid-cooled with additional oil-jet cooling, DOHC 16-valves with a narrow 14º valve angle, electronic fuel injection with ram-air intake, direct ignition, gear-driven counterbalancer to reduce vibration and a six-speed transmission with a large capacity clutch. To keep the engine compact the cam chain is driven from the right side of a short, five-journal crankshaft. The GSX1300R chassis is built around an aluminum alloy twin-spar frame and bridged aluminum swingarm. Supporting the frame are fully adjustable, 43mm inverted forks with 120 mm of wheel travel, and a link-type rear suspension with a fully adjustable shock absorber and 140mm of wheel travel. Wide radial tires are mounted on cast aluminum wheels provide plenty of traction, while six-piston front brake calipers with large 320 mm rotors and a twin-piston rear caliper with a 240 mm rotor provide powerful braking performance. The Hayabusa has many other convenience features such as a hinged fuel tank for easier maintenance, storage area for a U-lock and full instrumentation including a fuel gauge, twin-tripmeters, and even a LCD-type fuel consumption gauge. With all these features and outstanding performance, the 1999 GSX1300R Hayabusa is truly in a class of its own: Ultimate Sport.
MSRP: $13,999 The Suzuki Hayabusa is a machine so dominant, that it created an entirely new category of motorcycle in the industry – Ultimate Sport. With performance credentials that have established it as the most exciting sportbike on the planet, it's designed for serious sport riders who will settle for nothing less than the best. If that's you, and if you choose to ride the Hayabusa, you'll be rewarded with a riding experience you'll never forget. Its combination of unsurpassed power, crisp handling and superb aerodynamics creates the ultimate sport bike. For 2012, the Hayabusa is available with new graphics and colors - Glass Sparkle Black, Pearl Glacier White and limited edition Candy Sonoma Red. TOP 10 FEATURES The Hayabusa is equipped with a 1340cc, in-line, DOHC liquid-cooled engine with 16-valves, and Twin Swirl Combustion Chambers (TSCC) for eﬃcient, powerful acceleration and top end performance. The Hayabusa’s engine is fed via Suzuki’s Suzuki Dual Throttle Valve (SDTV) fuel injection system uses engine-computer-operated secondary valves to maintain optimum intake-air velocity for maximum combustion eﬃciency. Two 12-hole ﬁne-spray injectors on each throttle body improve fuel atomization for better combustion eﬃciency and while reducing fuel consumption. Lightweight aluminum alloy pistons with a compression ratio of 12.5:1 are used for maximum performance in all conditions with stunning acceleration and top end power. Hard, smooth chrome-nitride Physical Vapor Deposition (PVD) coating on the upper compression and oil control rings on each piston reduces friction while improving cylinder sealing. Lightweight titanium valves allow the use of light valve springs and high lift while maintaining accurate valve control. Iridium spark plugs are used for high combustion eﬃciency and consistent performance. The Hayabusa comes with an constant mesh 6-speed transmission, with close gear ratios for outstanding performance. Oil spray to the 4th, 5th and 6th gears reduces wear and mechanical noise during highway cruising. Suzuki Clutch Assist System (SCAS) serves as a back-torque-limiting system for smooth downshifts and also contributes to a light clutch pull. A lightweight and rigid twin-spar aluminum frame minimizes weight while maintaining high torsional strength, and is designed to allow a compact riding position for exceptional handling and control on the road. Rear subframe is made of rectangular steel tubing for suﬃcient weight carrying capacity. Lightweight Showa Big Piston front Fork (BPF) features a 37.6mm upper piston riding inside the 41mm fork tube. This endurance-race-proven design, along with a lightweight fully adjustable Showa rear shock, delivers more eﬀective, linear damping performance, resulting in better feedback to the rider for unmatched handling. A bridged aluminum alloy swingarm features a cross-sectional shape for increased rigidity, which improves rear tire grip and increases engine output. The Hayabusa’s fully adjustable rear shock absorber has a 43mm piston and 14mm rod diameter. Radial-mount Tokico front brake calipers oﬀer maximum braking performance using dual 310mm front brake rotors, resulting in reduced unsprung weight and improved handling. A lightweight single piston rear brake caliper works in conjunction with a 260mm rear brake disc. S-DMS (Suzuki Drive Mode Selector) allows the rider to choose from three diﬀerent engine settings, depending on riding conditions or rider preferences. For example, the rider can choose one map for tight, twisty roads and another for high-speed cruising.
Ford EFI Engine Lift Plate Safety Guidelines The installation begins with common sense! It is highly recommended that you support the vehicle with four heavy duty jack stands. ALWAYS use an engine hoist specifically designed for this procedure. The vehicle should be positioned on a hard, flat and level surface (asphalt in the summer can be very dangerous). NEVER use a bumper or scissor jack for the support of your vehicle! ALWAYS use safety glasses. Allow the engine and transmission to cool before disassembly. Instructions 1. If you are unfamiliar with the vehicle wiring, fuel connections, coolant or vacuum hose routing, it is always advisable to mark each connection before removal. 2. Always make sure the engine is cold and relieve fuel pressure to minimize the possibility of personal injury or vehicle damage. Use caution in removing electrical connections due to the sensitive nature of most locking style connectors. 3. Remove the coolant hoses, fuel lines, inlet ducting, throttle cable/linkage, vacuum hoses and wiring from the alternator, battery, distributor, gauge sending units, injectors, starter and throttle body. 4. Remove the 6 or 8 (varies by intake design) upper to lower intake manifold bolts. 5. Carefully remove the upper intake from the lower. In some cases the upper may be heavy and may require some maneuvering. 6. With the alignment tab facing the front of the engine, attach the lift plate using the hardware included and tighten the bolts to 12-18 lb ft. 7. Attach the engine hoist lift using one of three holes in the plate to achieve the proper lifting point and tilt angle to the engine assembly for removal making sure that all hooks, bolts, pins etc. are secure before placing tension on the chain assembly. 8. Remove the driveshaft and insert a plug or extra yoke on the output shaft of the transmission to prevent fluid leakage. Secure to prevent the unit from becoming disengaged during the removal process. 9. Remove the remainder of the bolts from the exhaust, motor mounts, driveshaft and transmission crossmember. 10. Always utilize a helper when attempting engine removal for your own personal safety and ease of removal. 1-800-345-4545 jegs.com
This manual has been prepared as an introduction to the specifications, features, construction, functions, etc. of the newly developed 3000GT. Please read this manual carefully so that it will be of assistance for your service and sales activities. Please note that the following service manuals are also available and should be used in conjunction with this manual. All information, illustrations and product descriptions contained in this manual are current as at the time of publication. We, however, reserve the right to make changes at any time without prior notice or obligation. MODEL INDICATIONS The following abbreviations are used in this manual for classification of model types. M/T: Indicates the manual transmission, or models equipped with the manual transmission. MPI: Indicates the multi-point injection, or engines equipped with the multi-point injection. 4WD: Indicates the 4 wheel-drive vehicles. DOHC: Indicates an engine with the double overhead camshaft, or a model equipped with such an engine. INDICATION OF DESTINATION Europe, General Export, Australia, New Zealand and GCC used for convenience to indicate destination. NOTE 1. "General Export" means territories other than Europe, Australia, New Zealand, GCC, the U.S.A. and Canada. 2. "GCC" means member of the Gulf Cooperation Council nation. 3. In some instances, vehicles with other specifications may be shipped to some countries. GENERAL - How to Use This Manual EXPLANATION OF CIRCUIT DIAGRAMS The symbols used in circuit diagrams are used as described below. NOTE For detailed information concerning the reading of circuit diagrams, refer to the separate manual of "ELECTRICAL WIRING".
1993 ENGINE PERFORMANCE Chrysler Corp./Mitsubishi On-Vehicle Adjustments Dodge; Stealth Mitsubishi; Diamante, 3000GT ENGINE MECHANICAL Before performing any on-vehicle adjustments to fuel or ignition system, ensure engine mechanical condition is okay. VALVE CLEARANCE NOTE: Diamante, Stealth and 3000GT models use hydraulic lash adjusters, valve adjustment is not necessary. CHECKING HYDRAULIC VALVE LIFTERS 1) Warm engine to normal operating temperature. Remove valve cover. Position cylinder No. 1 at TDC on compression stroke. Check intake rockers on cylinders No. 1 and 2. Check exhaust rockers on cylinders No. 1 and 3. 2) Push downward on end of rocker arm above lash adjuster. Rotate crankshaft 360 degrees and check intake rockers on cylinders No. 3 and 4. Check exhaust rockers on cylinders No. 2 and 4. If lash adjuster is normal, it will feel solid. 3) If lash adjuster moves downward easily when pushed, replace adjuster. If lash adjuster feels soft or spongy, air has probably entered lash adjuster. If this occurs, check engine oil level. If engine oil level is okay, check oil screen and oil screen gasket for damage. 4) After repairing cause of air leak, warm engine to operating temperature. Drive vehicle at low speed for approximately 5 minutes. Turn engine off for a few minutes. 5) Restart engine and drive at low speed for approximately 5 minutes. Repeat this step several times for about one hour. This helps remove air from engine oil. IGNITION TIMING NOTE: Perform all adjustments with engine at normal operating temperature, cooling fan and accessories off, transmission in Park or Neutral, and front wheels in straight-ahead position. NOTE: Adjustment of ignition timing cannot be performed on vehicles equipped with Distributorless Ignition Systems (DIS). If ignition timing is not within specification, see CRANKSHAFT POSITION SENSOR in I - SYS/COMP TESTS article in this section. 1) Locate ignition timing adjustment connector. See IGNITION TIMING ADJUSTMENT CONNECTOR LOCATION table. Connect jumper wire between ignition timing adjustment connector and ground. Check ignition basic timing. 2) If ignition basic timing is not within specification, loosen distributor and rotate to adjust timing if necessary. See IGNITION TIMING SPECIFICATIONS table. Remove jumper wire from ignition timing adjustment connector. IGNITION TIMING SPECIFICATIONS TABLE (Degrees BTDC @ RPM)
This book was translated from the original Japanese language service manual published by Mitsubishi Motors Corporation of Japan. Translation was performed by volunteers from 3000GT/Stealth International, an owners and enthusiast group focused on the Mitsubishi 3000GT, Dodge Stealth and Mitsubishi GTO. Great care has been taken to ensure the accuracy of the information contained in this manual, but errors may still be possible due to the nature of the translation. Therefore, this manual is presented as a guide only, and repair procedures should not be undertaken by unskilled individuals who do not posess a thorough understanding of the subject material. The authors of this manual will not be held responsible for any personal injury or damage to property incurred while performing the procedures described within. All tasks in this manual are undertaken at your own risk. This book covers the Getrag W5MG1 and W6MG1 all-wheel drive manual transaxles found in the following models: 1991 - 1996 Dodge Stealth RlT Turbo 1991 - 1999 Mitsubishi 3000GT VR4 1990 - 1999 Mitsubishi GTO Twin Turbo This book would not be possible without the contributions of the following people: Translation, and layout Jeff VanOrsdal Additional Translation Frank Chen, Kotaru Yamaguchi, Corumisri Technical Assistance Bret Brinkmann Jeff Lucius Financial assistance Many generous members of 3000GT I Stealth International Visit 3000GT I Stealth International on the web at www.3si.org This book explains the main service points regarding the transmission itself. However, please utilize the relevant service manual for the car model and year in question when concerns arise regarding onboard inspection and service. Symbols for lubricants, sealants and adhesives Information concerning the locations of lubricarion and for application of sealants and adhesives is provided, by using symbols, in the diagram of component parts or on the page following the component parts page. 4IiN ................. Grease (multipurpose unless there Important points (1) Component diagrams are published at the beginning of each section so that you may more easily visualize the assembled state of the component or su b-assembly. (2) Numbered service procedures are displayed in the component diagrams along with indications of non-reusable parts and torque specifications. (3) Main service points and maintenance points are explained in detail, along with usage and descriptions of special tools.
This Service Manual has been prepared with the latest service information available at the time of publication. It is subdivided into various group categories and each section contains diagnossis, disassembly, repair, and installation procedures along with complete specifications and tightening references. Use of this manual will aid in properly performing any servicing necessary to maintain or restore the high levels of performance and reliability designed into these outstanding vehicles. For information concerning all components other than the electrical system and on-vehicle service procedures for engines and transmissions, refer to Volume 1 “Chassis & Body” of this paired Service Manual. For overhaul procedures of engines or transmission, refer to the separately issued Engine Service Manual or Manual/ Automatic Transmission Service Manual.