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JANE WILLIAMS, PhD, RN Dean and Professor of Nursing School of Nursing, Rhode Island College 600 Mt. Pleasant Avenue, Providence, RI 02908 TEL: 401 456-9608: FAX: 401 456-8206 Email: firstname.lastname@example.org CURRENT EMPLOYMENT Rhode Island College, Dean and Professor of Nursing, School of Nursing, 1975-present; initial appointment as assistant professor, 1975; appointed Professor, 1995, Department Chairperson, 2000, and Dean, 2007. EDUCATION University of Rhode Island, College of Nursing, Kingston, Rhode Island, Ph.D., Nursing, 1995. New York University, School of Education, New York, New York, M.A., Major in Education and Minor in Nursing, 1968; University of Michigan, School of Nursing, Ann Arbor, Michigan, B.S.N. with Distinction, 1966. PUBLICATIONS Williams, J., Brumbaugh, M. & Vares, L., (2006), “Education to improve interdisciplinary practice of health care professionals: A pilot project”, Medicine & Health, Rhode Island, 89 (9), p. 312-313. Mosser, N., Williams, J. & Wood, C. (2006), “The use of progression testing throughout nursing programs: How two colleges promote success on NCLEX-RN”. Annual Review of Nursing Education. Vol.4, p. 305-319. Newman, M. and Williams, J. (2003) "Educating Nurses in Rhode Island: A lot of diversity in a little place", Journal of Cultural Diversity, Vol. 10, No. 3, p. 91-95. Williams, J., (2001) “The Clinical Notebook: Using Student Portfolios to Enhance Teaching and Learning, Journal of Nursing Education. Vol. 40, p. 135-137. Ferszt, G., Massotti, E., Miller, J. & Williams, J. (2000) “Art on Rounds: Research Study of an in-patient oncology unit”, Illness Crisis and Loss. Vol. 8, No. 2, pp. 189-199. Williams, J. (1999) “When Interns Meet Managed Care” [Letter to the Editor]. New York Times, p. 30A. Williams, J., Wood, C., & Cunningham-Warburton, P. (1999) “A Narrative Study of Chemotherapy-Induced Alopecia”. Oncology Nursing Forum. Vol. 26, pp. 1463-1468. Willliams, J. (1999) “Health Policy Tool Kit Helps Students to Get Involved”. ONS Newsletter, 14 (9) p 5.
Chase Bays 240sx Booster Delete Brake Line Relocation Kit Install Guide What is included? •(1) Stainless steel engine bay hard line •(6) Stainless braided/Teflon coated crimped brake lines •(1) -‐3AN Bulkhead Tee fitting (Gold in color) •(1) Female -‐3AN Tee Fitting w/ male fitting on leg (Black in color) •(2) Straight -‐3AN Bulkheads (1) 90 degree -‐3AN Bulkhead (4) Bulkhead nuts •(1) -‐3AN tube nut (for rear line) •(1) -‐3AN tube sleeve (for rear line) •(1) Wilwood Proportioning Valve with -‐3AN male fittings •Uninstall all OEM Brake hard lines and Booster/Master Cylinder. •Install your Chase Bays Brake Booster Delete Kit. Start with drilling your engine bay hole. Install the hard line to help line up the hole correctly.
Safety Recall No. 983 Brake Booster Vacuum Hose Models 2000-2001 (PL) Dodge and Plymouth Neon NOTE: This recall applies only to the above vehicles equipped with a: Ø 2.0L engine (“C” in the 8th VIN Position) built through March 21, 2001 (MDH 0321XX) or a Ø 2.0L High Output engine (“F” in the 8th VIN Position) built through April 11, 2001 (MDH 0411XX). IMPORTANT: Some of the involved vehicles may be in dealer new vehicle inventory. Federal law requires you to stop sale and complete this recall service on these vehicles before retail delivery. Dealers should also consider this requirement to apply to used vehicle inventory and should perform this recall on vehicles in for service. Involved vehicles can be determined by using the DIAL VIP System. Subject The brake booster vacuum hose on about 350,000 of the above vehicles may swell due to oil contamination and become disconnected. A disconnected hose could cause a loss of power brake assist and an increase in engine idle speed. This can increase stopping distance and cause an accident without warning. Repair The brake booster vacuum hose must be replaced. © Copyright 2001, DaimlerChrysler Corporation, All Rights Reserved Safety Recall No. 983 -- Brake Booster Vacuum Hose Page 2 Parts Information Each dealer to whom vehicles in the recall were invoiced (or the current dealer at the same street address) will receive enough Brake Booster Vacuum Hoses to service about 10% of those vehicles. Dealers should determine which brake booster vacuum hose is required for each vehicle at the time appointments are scheduled to assure that the correct part is available when the customer arrives. The vacuum hose for the vehicle to be serviced may be determined by: Ø Using the part code in the third column of the VIN list along with the following table (involved dealers); Ø Using the VIN and part number list electronically transmitted to DIAL System Function 53 (involved dealers); or...
driveshaft series 6Q – 175 – 250 I N S TA L L AT I O N - O P E R AT I O N - M A I N T E N A N C E M92-1442B I SSU E D 4/2013 R EAD AN D U N D E R STAN D TH I S MAN UAL PR IOR TO OPE RATI NG OR S E RVICI NG TH I S PROD UCT. Before installing the driveshaft, be sure the motor and Geareducer are on level bases and that their shafts are in reasonable alignment. Note match numbers on the driveshaft flanges and remove the yokes. Coat the motor shaft and Geareducer shaft with “Thred-Gard” (Crane Packing Co.) or similar lubricant. Place the key halfway in motor and Geareducer shafts, then install yokes as shown in Figure 4. Use a rubber mallet or wood block when tapping yokes to prevent damage. Tighten each yoke set screw against key. Align match numbers on tube and yoke flanges and bolt the tube and flange assembly to the Geareducer yoke while supporting the motor end of the tube and flange assembly. Progressively tighten bolts to 60 ft·lbƒ (82 N·m) torque. Slide the motor so that motor yoke can be bolted to the tube and flange assembly without pushing or pulling on the bushings. Align match numbers and bolt the motor yoke to the tube and flange assembly. Progressively tighten bolts to 60 ft·lbƒ (82 N·m) torque. The distance between tube and yoke flanges should be as shown in Figure 4.
Eaton’s Driveline Angle Analyzer Tool Kit (DAA 2) Helps Eliminate Torsional Vibration Problems The tool kit diagnoses the driveline angles that cause torsional vibrations between the transmission and front and rear drive axles. Varying ride heights, angles and configurations can create torsional vibrations throughout the drivetrain, which in turn can cause noise complaints and vibrations that result in significantly reduced drivetrain component life. Frequently, vehicles are sensitive to small changes in driveline angles, making it virtually impossible even for a seasoned technician to visually inspect a driveline and see whether its component angles are going to lead to problems down the road. Eaton’s Driveline Angle Analyzer allows you to properly measure driveline angles and diagnose potential problems before serious damage to the equipment occurs. The analyzer also identifies corrections for optimum component life.
X-TYPE DATE 05/04 Amended 09/04 XT100-08 TECHNICAL BULLETIN SERVICE Driveshaft Vibration – Diagnostic Method – Repair MODEL 2002-04 MY X-TYPE VIN C00001-E02938 Remove and destroy Bulletin XT100-08, dated 05/04. Replace with this Bulletin. Revisions are marked with a bar and in bold text. Issue: A new procedure has been developed for use after the WDS Vehicle Vibration Analyzer (VVA) has confirmed a vehicle vibration. Action: After a driveshaft vibration has been confirmed using WDS VVA, follow the workshop procedure outlined below. WORKSHOP PROCEDURE Note: There is no Labor Time Allowance to carry out road test diagnosis. Jaguar recommends a claim of 0.50 hrs. as straight time for VVA. Warning: Driveshaft bolts are one-time use only. Use new bolts for the final repair. Existing bolts may be reused throughout the diagnostic procedures. Raise vehicle on twin-post lift. Check for alignment of the green line on the rear differential flange with white paint spot on the rear of the driveshaft. If not aligned continue from step 3; if aligned continue from step 16. Remove the rear driveshaft joint to rear differential flange bolts and links where accessible. Rotate the driveshaft and remove the remaining rear driveshaft joint to rear differential flange securing bolts and links. Displace driveshaft from the rear differential flange. Remove and discard the gasket from the rear differential flange (where installed). Clean the mating faces. Install a new gasket to the rear differential flange, if previously installed. NOTE: THE INFORMATION IN TECHNICAL BULLETINS IS INTENDED FOR USE BY TRAINED, PROFESSIONAL TECHNICIANS WITH THE KNOWLEDGE, TOOLS, AND EQUIPMENT TO DO THE JOB PROPERLY AND SAFELY. IT INFORMS THESE TECHNICIANS OF CONDITIONS THAT MAY OCCUR ON SOME VEHICLES, OR PROVIDES INFORMATION THAT COULD ASSIST IN PROPER VEHICLE SERVICE. THE PROCEDURES SHOULD NOT BE PERFORMED BY “DO-ITYOURSELFERS.” DO NOT ASSUME THAT A CONDITION DESCRIBED AFFECTS YOUR CAR. CONTACT A JAGUAR RETAILER TO DETERMINE WHETHER THE BULLETIN APPLIES TO YOUR VEHICLE. Date of issue 05/04 Amended 09/04
Vibration Diagnostics S tart 1 Gather Info When did vibration start? Where is vibration felt? What road conditions? Under load or high torque conditions? During acceleration/deceleration? Speed dependent? RPM dependent? Noise? Suspension modified recently? Lube clean and at proper level? 2 Important: Use factory service manuals and procedures and refer to all applicable safety precautions when servicing vehicles. This document is intended to assist with drivetrain vibration diagnosis. It does not guarantee an immediate solution nor does it guarantee warranty responsibility or reimbursement. Refer to Roadranger.com for Product Warranty Statements, Warranty Manual, and Warranty Guidelines. 6 Vibrations While Stationary Previous work on clutch or engine Y es In the road test in Step 2, the vehicle was run up to the suspected RPM and the transmission shift lever was placed in neutral. No Y es No If clutch work recently done, problem could be related to the clutch. Verify proper clutch was installed. If engine work recently done, problem could be related to the engine. Contact your engine distributor. 4 No Problem is related to the clutch. Road Test Have vehicle driver recreate complaint condition, if possible Leave trailer attached Run up to suspected RPM and put transmission in neutral Simulate Conditions Speed Related? Y es Does ride height meet OEM specs Y es No No Perform visual inspection and use Eaton Driveline Angle Analyzer (DAA). U-joint bearing cups and trunnions Bearing straps Flange yoke / companion flange Yoke-mounted damper Parking brake Center bearing Fasteners Driveshaft for damage / missing weights Driveshaft slip spline (wear / bottoming / inadequate engagement) Cab mounts / air ride system Correct per OEM procedures. Speed RPM Gear Position Coast Under power Loaded / Unloaded Problem Solved No Remove all drive axle shafts and lock in power divider. Run truck in same condition as when complaint occurred. Y es Done! Problem Solved Isolate Suspect Shaft No Y es Problem is related to the wheel end. Take known good wheel assembly and test replacement from wheel to wheel to isolate problem.
The latest 3.4 litre version of the Powertec RP V8 Doubled up Tom Sharp investigates a cost effective V8 racing engine on behalf of Powertec. It essentially consists of a pair of Hayabusa engines, arranged at a 72° bank angle, driving a common crankshaft and mounted to a dedicated dry-sumped crankcase. The result is a P keenly priced V8 engine that is very light, powerful and reliable. The having initially a 2.6 litre displacement, it had been commissioned by been joined by three other varieties (see Table 1), which demonstrates Radical Motorsport for installation into that company’s SR8 sports-racing just how much flexibility is in the base package. The numbers tell the car. Radical specialised in motorcycle-engined sports-racers and was story of commercial success well enough. Powertec have to date built keen to augment its popular four cylinder machines with a V8. a total of 110 RP engines (including 75 RPAs and 25 RPBs); volumes owertec Engineering’s innovative, Suzuki Hayabusa-based engine is now owned, manufactured and built by Powertec Engineering RP V8 engine was introduced in the UK at the Autosport from its base in Peterborough, England. Run by former motorbike International show back in January 2005 since when it engine tuning specialist Ted Hurrell, Powertec employs 14 people in a has been a resounding technical and commercial success. 3000 sq ft factory. Founded upon a pair of 1.3 litre Hayabusa I4 motorcycle engines and The RP was designed and detailed by Steve Prentice of SPD Ltd 68 The original 2.6 litre RPA and the subsequent 2.8 litre RPB have now which any bespoke engine manufacturers would be proud of. However, DOSSIER : POWERTEC RP V8 ENGINE RP V8 CAD image governs UK motorsport – they banned it on the grounds of it not being derived from a passenger-carrying vehicle. Horne’s solicitors eventually ensured the car received its required log book but the MSA made it clear that the RP was not welcome in rallying. Powertec’s original product portfolio plan had included a 2.0 litre ‘screamer’ version, but as Ted Hurrell explains customer demand drove the capacity in the opposite direction. “The screamer was originally conceived for use in 2.0 litre hillclimb and VdeV sportscar racing, however the VdeV regulations quickly changed to insist upon four cylinder car engines and our hillclimb customers went in the direction of the unlimited classes, which means increasing swept volume as far as possible to maximize torque. So only one 2.0 litre engine was built before that variant was then unfortunately the RP series only represents 20% of Powertec’s business; the majority revolves around building and tuning the Suzuki Hayabusa four cylinder shelved. “Those two examples, of the 2.5 and 2.0 litre engines go to engines for markets such as motorbike racing, low volume production...
Suzuki Hayabusa 2000 - 2005 Engine Protection Cage installation instructions Items included in this kit Cage loop (1each) Side struts (2 each) Extended frame sliders (2 each) Hardware kit (1 each) (contents listed below) M10-1.25 x 70mm bolt (1 each) M10-1.25 x 80mm bolt (1 each) ¼”-20 x 1 ½” bolts (2 each) ¼”-20 x 2” bolts (2 each) ¼”-20 lock nuts (4 each) 3/8”-24 x ¾” bolts (2 each) Flange Bushings (2 each) M10-1.5 x 15 1/2" all thread rod (1 each) M10-1.5 hex nuts (2 each) 1. Follow installation instructions for extended frame sliders. (See page 1) Note: Do not attach delron tips or tighten extended frame sliders until all components are installed. 2. Place the cage loop inside short telescoping tubes on sliders (See fig. G), push the ¼”-20 x 1 ½” bolts through the bolt holes in the telescoping tubes from the outside and start the ¼”-20 lock nuts. Do not tighten lock nuts at this time. 3. Install the left side strut using the all thread rod, flange bushings and hex nuts provided. Slide the following components over one end of the all thread rod in this order: flange bushing marked with "L", side strut marked with "L" and one M10-1.5 hex nut. (See fig A) Slide the all thread rod through the swing arm bolt on the left side of the motorcycle. (make sure the flange bushing slides into the swing arm bolt) On the right side of the motorcycle slide the following components over the all thread rod in this order: flange bushing marked "R", side strut marked "R" and M10-1.5 hex nut. (you may need to hold the left side to ensure it stays in place) 4. Push the bottom of the cage loop towards the rear of the motorcycle while pulling the bottom of the left side strut towards the front until the bolt hole on the side strut meets the threaded hole on the tab welded to the cage loop. Attach the side strut to the outside of the tab on the cage loop with a 3/8”-24 x ¾” bolt. (See fig J) Do not tighten the bolt at this time. Repeat for other side. 5. Once all components are attached tighten all bolts and nuts. Be sure to torque all engine mount bolts to factory specifications. Torque the hex nuts on the all thread stud to 12ft lbs. We recommend using "blue" loctite on the all thread stud to ensure the hex nuts do not vibrate loose. 6. Install delron tips with ¼”-20 x 2” bolts and ¼”-20 lock nuts.
Installation Instructions 1. Make sure the bike is completely cool before starting the installation. Make sure the bike is secure on a centerstand or ideally a service lift. 2. Remove rear lower cowling. 3. Remove OEM mufflers. V.A.L.E. TM 2008 Suzuki V a r i a b l e A x i s L o c k i n g E x h a u s t HAYABUSA V.A.L.E.™ Complete Exhaust System with M-2 Canister Part # 005-1930106V / 005-1930107V / 005-1930108V 8. 9. 4. The horn should also be removed for more radiator clearance. Install the TBR head pipes. (Each piece is labeled for proper postioning). From Left to Right, install head pipes 1, 2, 3, and then 4. Use the OEM gasket between the head pipes and cylinder head. Remove cowling from both the left and right sides. “M” Parts List Qty. Description 1 15” Muffler Canister 1 4-2-1 Slip-on Tube 1 4-2-1 Header Assembly 1 HARDWARE KIT 1 8x55mm Socket Head Flat Bolt (Black) 6 80mm Springs 1 8x16mm Flange Bolt 4 6x14mm Socket Head Cap Screw 1 Barrel Clamp 1 5mm Long Handle Ball End Hex Wrench 4 6mm Split Lock Washer 2 TBR Script Logo Yellow Decal 4” “1” Muffler Slip-tube Part Number Varies 005-19301S 005-19301HK 005-193-3C 005-SHF855B 005-S-80 005-FB816 005-SH814 005-27-66MSH 005-9-18610 005-WL6 015-10208-A 5. “2” “3” “R” “4” Remove radiator braces. 6. “L ” Remove O2 sensore from OEM head pipe. 10. Install the collectors to the bottom of the head pipes. The collectors are labeled “L for left and “R” for Right. ” IMPORTANT - PLEASE READ CAREFULLY We recommend that this performance part be installed by a qualified motorcycle technician. If you have any doubts as to your ability to install this performance part, please consult with your local motorcycle dealer. Read all instructions first before starting installation. Make sure the motorcycle and exhaust system are completely cool before starting the installation. Also, make sure the bike is secure on a centerstand or ideally a service lift during installation. Be sure to save all stock components for possible use later.