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In addition to realty evaluations a good residential property valuer have to visit a position to value stocks and shares, jewelries and other commodities and other movable and immovable properties too.
Rhode Island College Anchor Notes The Official Newsletter of Rhode Island College Intercollegiate Athletics www.ric.edu/athletics Vol. VIII No. 4 Providence, Rhode Island Spring Review/Summer Preview June, 2007 Anchor Club Golf Day Set for July 16 The seventh Annual Anchor Club Golf Day is taking place July 16th at Pawtucket Country Club. This event will be a great opportunity to reunite with fellow Anchor faithful and celebrate the past and the future of RIC Athletics - foursomes are still available! For more information on attending, or if you are interested in being a sponsor for this event contact Tim McCabe at 401-456-8260 or see the brochure at www.ric.edu/ athletics/index.html. The cost is $165 per golfer, which includes green fees with a “play your own ball” format, lunch, gifts, dinner stations and a social hour. Lunch and registration begin at 11:30 a.m. followed by a shotgun start at 12:45 p.m. A reception with food stations will be held after at 6:30 p.m. with prizes and raffles at 7 p.m. This is one you don’t want to miss! Register today.
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: email@example.com 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.
PERFOMANCE BOOST The Freescale* MPXV4115V pressure sensor is the ideal part for automotive vacuum sensing needs such as those found in the brake booster application. Prepared by Marc Osajda Automotive Sensor Marketing Motorola – Toulouse, France Advanced braking systems are becoming increasingly common in today’s automobiles. Higher level systems and technology now being used in “brake assist systems” (BAS) in several European cars, have made it possible for more efficient and intelligent braking systems. A key functional application block found in these braking systems that has advanced with this technology surge, is the vacuum brake booster function. Here are a few driving factors behind the need and use of the brake booster, which helps ensure a safer braking system. Independent Systems: In current gasoline engine cars, the engine’s intake manifold generates the vacuum for the brake booster. This system works fine with one exception. The amount of vacuum in the brake booster is unknown by the braking system. Thus the amount of amplification is also unknown. If heavy braking is needed, there is no possibility for the brake system to interact with the intake manifold if additional amplification is required. The manufacturer’s interest for having the vacuum generated by an auxiliary vacuum pump is that the brake system can manage the amount of vacuum as required, on demand. This in turns gives it the ability to perform amplification on its own, giving it complete independent from the engine’s operating condition. The auxiliary pump is also able to provide higher amounts of vacuum whenever necessary. In situations calling for heavy braking, the pressure will naturally decrease in the brake booster, also causing a decrease in the amplification during braking. With an external pump it is possible to maintain, or even increase the amplification during a heavy braking phase. Smart Safety: Wheel blocking due to high-braking force is controlled by the Anti-Lock Brake System (ABS). However, it has been observed that in many cases, drivers do not...
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...
GENERAL PROCEDURES Driveshaft Runout and Balancing Special Tool(s) Dial Indicator Gauge with Holding Fixture 100-002 (TOOL-4201-C) or equivalent Mastertech® Series MTS 4000 Driveline Balance and NVH Analyzer (Vetronix) 257-00018 or equivalent Driveshaft Inspection NOTE: Driveline vibration exhibits a higher frequency and lower amplitude than high-speed shake. Driveline vibration is directly related to the speed of the vehicle and is noticed at various speeds. Driveline vibration can be perceived as a tremor in the floorpan or heard as a rumble, hum or boom. NOTE: Refer to Specifications in this section for all runout specifications. 1. NOTE: Do not make any adjustments before carrying out a road test. Do not change the tire pressure or the vehicle load. Carry out a visual inspection of the vehicle. Operate the vehicle and verify the condition by reproducing it during the road test. • 2. With the vehicle in NEUTRAL, position it on a hoist. For additional information, refer to Section 100-02. • 3. The concern should be directly related to vehicle road speed, not affected by acceleration or deceleration or could not be reduced by coasting in NEUTRAL. The driveshaft should be kept at an angle equal to or close to the curb-weighted position. Use a twin-post hoist or a frame hoist with jackstands. Inspect the driveshaft for damage, undercoating or incorrectly seated U-joints. Rotate the driveshaft slowly by hand and feel for binding or end play in the U-joint trunnions. Remove the driveshaft. For additional information, refer to Section 205-01. Inspect the slip yoke splines for any galling, dirt, rust or incorrect lubrication. Clean the driveshaft or install new U-joints as necessary. Install a new driveshaft if damaged. After any corrections or new components are installed, recheck for the vibration at the road test speed.
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.
Referred to as the Town of Angels, La is well-known around the world because of its films, lively tradition and luxurious lifestyle. In 2007, more than 61 million people moved to and from Los-Angeles airport poor, testifying for speed and the plain draw of the town.
Parts List Power Commander USB Cable CD-ROM Installation Guide Power Commander Decals Dynojet Decals Velcro® Strip Alcohol Swab Wire tap O2 eliminator The ignition MUST be turned OFF before installation! YOU CAN ALSO DOWNLOAD THE POWER COMMANDER SOFTWARE AND LATEST MAPS FROM OUR WEB SITE AT: WWW.POWERCOMMANDER.COM PLEASE READ ALL DIRECTIONS BEFORE STARTING INSTALLATION 2191 Mendenhall Drive 20-008 www.powercommander.com North Las Vegas, NV 89081 (800) 992-4993 www.powercommander.com 2009 Suzuki Hayabusa PCV - 1 POWER COMMANDER V INPUT ACCESSORY GUIDE A C C E S S O RY I N P U T S Map - The PCV has the ability to hold 2 different base maps. You can switch on the fly between these two base maps when you hook up a switch to the MAP inputs. You can use any open/close type switch. The polarity of the wires is not important. When using the Autotune kit one position will hold a base map and the other position will let you activate the learning mode. When the switch is “CLOSED” Autotune will be activated. Shifter- These inputs are for use with the Dynojet quickshifter. Insert the wires from the Dynojet quickshifter into the SHIFTER inputs. The polarity of the wires is not important. Speed- If your application has a speed sensor then you can tap into the signal side of the sensor and run a wire into this input. This will allow you to calculate gear position in the Control Center Software. Once gear position is setup you can alter your map based on gear position and setup gear dependent kill times when using a quickshifter. USB CONNECTION CRANK ANALOG EXPANSION PORTS 1 & 2 Optional Accessories such as Color LCD unit or Auto tune kit.
RCC Turbos - Stage 1 Turbo Install: Suzuki Hayabusa (Gen 1) • Preparation/Disassembly: Remove the seat. Disconnect negative terminal on the battery. Drain the fuel tank. Remove the fuel tank. Remove the stock fuel pump from the tank. Remove the air box. Remove the MAP sensor and temperature sensor from the air box. Remove left and right side fairings. Drain engine oil. Drain engine coolant. Remove the oil filter Remove the oil restrictor, behind the filter. Remove the oil cooler lines. Remove the radiator and oil cooler, as one unit, leaving only the bracket/support for radiator (before reinstalling the radiator please remove all the tabs along the bottom of the radiator). Remove the entire exhaust system. Remove the PAIR system. Remove the oil pan from the engine. • Sensor Bracket Modification: On the left hand side of bike, on the inside of the frame, you will see a bracket, with a plastic vacuum canister, vacuum control solenoid valve, atmospheric pressure sensor, and some vacuum lines, with a check valve in the vacuum line. Please remove this entire bracket, eliminate all the vacuum lines, the plastic canister, and the control solenoid valve, and also cut off the metal tab that held the vacuum canister. Then reinstall this bracket with only the atmospheric pressure sensor, and plug the wires back in. • Tap/plug PAIR System Holes: Tap the four small PAIR system holes, above the exhaust ports, with an M6 x 1.0 tap. Install the four small M6 screws into the exhaust holes after tapping them. • Modify the Oil Pan: Drill a ¾” hole on the left side of the oil pan. Use thread sealant on the washer, and red Loctite on the threads. Make sure the sealing washer is against the inside of pan, then the stainless flat washer, then the nut. Once the fitting is installed, reinstall the oil pan. • Install Header/Turbo/Oil Lines/Exhaust: Install the header and turbo as a unit, but with the bolts loose. Use four of your original header bolts on the top of the turbo header (Allen head). Use the four new bolts on the bottom row of the header (M8, 10mm flange head). PLEASE NOTE! After installing the dump pipes and waste gate, the nipple on the top of the waste gate remains open, and no hose gets installed on the top fitting. The top fitting is used for boost control on Stage 2 and higher end kits. It is not used on Stage 1 kits.