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Ampere Meter
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Infrared Thermometer Uni-Trend UT305B Sale Price: $239.00  |
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This infrared pyrometer measures temperature within the range from -50ºC to 1250ºC in ºC or ºF. UNI-T UT305B Infrared Thermometer Features ?Temperature range -50ºC ~ 1250ºC ?Data logging (up to 100) ?Electricity cut off memory ?Laser switch ?Search option ?Low and high alarm ?Data Hold function ??C/?F selection ?T-C thermocouple measurement ?USB data transfer ?Max/Min/Dif/Avg measurements ?Tripod mount ?Sleep mode ?Low battery indication |
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Infrared Thermometer Uni-Trend UT305C Sale Price: $149.00 |
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This infrared pyrometer measures temperature within the range from -50ºC to 1550ºC in ºC or ºF. UNI-T UT305C Infrared Thermometer Features ?Temperature range -50ºC ~ 1550ºC ?Data logging (up to 100) ?Electricity cut off memory ?Laser switch ?Search option ?Low and high alarm ?Data Hold function ??C/?F selection ?T-C thermocouple measurement ?USB data transfer ?Max/Min/Dif/Avg measurements ?Tripod mount ?Sleep mode ?Low battery indication |
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Infrared Thermometer UNI-Trend UT303C |
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UNI-T UT303C infrared thermometer for non-contact temperature measurements is fast, efficient and easy to use when checking starters, fuses, enclosed relays, bearings, belts and sheaves. UNI-T UT303C Infrared Thermometer Features ?Temperature range -32ºC ~ 1050ºC ?Electricity cut off memory ?Laser switch ?Search option ?Data Hold function ??C/?F selection ?Max/Min/Dif/Avg measurements ?Tripod mount ?Sleep mode ?Low battery indication |
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Schumacher BT-100 100 amp Battery Load Tester List Price: $58.30 Sale Price: $28.04 |
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Schumacher Bt100 Battery Load Tester |
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Fluke Corporation 322 AC Clamp Meter List Price: $113.95 Sale Price: $87.00 |
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The Fluke 322 clamp meter is designed to verify the presence of load current, AC voltage and continuity of circuits, switches, fuses and contacts. This small and rugged meter is ideally suited for current measurements in tight cable compartments... |
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Fluke 803293 11 Amp 1000 Volt Fluke Digital Multimeter Replacement Fuse List Price: $8.50 Sale Price: $7.74 |
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11 Amp 1000 Volt Fluke Digital Multimeter Replacement Fuse |
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Cables To Go 03147 18 AWG Monitor Power Adapter Cable, Black (1 Feet/0.30 Meters) List Price: $13.58 Sale Price: $1.84 |
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Plug in the Monitor Power Adapter Cable from Cables To Go to make your work environment more flexible and efficient. All Cables To Go power cables feature a fully molded design that provides maximum durability and long life... |
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Cables To Go 03149 18 AWG Monitor Power Adapter Cable, Black (15 Feet/4.57 Meters) List Price: $14.99 Sale Price: $5.48 |
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Plug in the UL listed Monitor Power Adapter Cable from Cables To Go to make your work environment more flexible and efficient. All Cables To Go power cables feature a fully molded design that provides maximum durability and long lifePrimary InformationCable Type : Power cable Left Connector Gender : Male Left Connector Type : Power IEC 320 Right Connector Gender : Female Right Connector Type : power NEMA 5-15 Length : 15 feet Color : Black Compliant Standards : UL Service & Support Type : Limited lifetime warranty UNSPSC CodeUNSPSC Code : 26121620 Product IDUPC: 757120031499Manufacturer Part: 03149 |
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Cables To Go 03148 18 AWG Monitor Power Adapter Cable, Black (6 Feet/1.82 Meters) List Price: $13.99 Sale Price: $2.87 |
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Plug in the UL listed Monitor Power Adapter Cable from Cables To Go to make your work environment more flexible and efficient. All Cables To Go power cables feature a fully molded design that provides maximum durability and long life... |
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Sunforce 60032 30 Amp Digital Charge Controller List Price: $129.99 Sale Price: $78.52 |
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The Sunforce 60032 30 Amp Digital Charge Controller prevents overcharging of 12 volt batteries. It is intended for use with 12 volt solar panels, and can handle up to 30 amps of array current and up to 450 Watts of solar power... |
Here are some more information for Ampere Meter:
A fuse is a very thin wire, which either melts or vaporizes when too much current flows through it. The thin wire may be made of aluminum, tin-coated copper or nickel. The resulting open in the circuit stops current flow. In electronic equipment, most fuses are cylindrical glass or ceramic type with a metal cap at each end! The current rating also can be seen in one of the two metal end caps. There are two popular physical sizes: 1 - ¼ X ¼ - inch and 5X20mm. The 1 - ¼ X ¼ - inch size is used in many automobiles. You'll find both sizes in many electronic equipment, but the smaller 5 X 20mm has become more common. Fuses are available with current ratings from 1/500 Ampere to hundreds of amperes.
Purpose of Fuses
The purpose of a fuse is to open an electronic circuit when current flow exceeds a certain amount, determined by the rating of the fuse. Opening a circuit under high current conditions can save electronic components from damaged and prevents overheating, which could cause a fire.
Types of Fuses
There is two basic types of fuses: fast acting and slow blow. The fast acting type will open very quickly when their particular current rating is exceeded. This is important for analog meter movements, which can quickly be destroyed when too much current flows through them, for even a very small amount of time. Slow blow fuse have a coiled construction inside. They are designed to open only on a continued overload, such as a short circuit. The purpose of coiled construction is to prevent the fuse from blowing on just a temporary current surge.
Do not use a slow blow fuse in place of a fast acting fuse. It may not open fast enough to prevent components damage under a high current condition. It's not harmful to replace a slow blow fuse with a fast-acting fuse, but it will probably open up unnecessarily every now and then when the equipment is first switch on. A blown fuse can tell you something about your service problem. Often the glass case of the fuse appears clear, and you can still see the broken pieces of the fuse element. This means you have the kind of problem that causes a slow, gradual overload on the power supply. Some fuses even die of old age. But if the inside of the glass fuse is discolored, and there is no trace of the fuse element (the center connector), you know that the center connector was destroyed quickly and violently, using a lot of heat. The fault was a short circuit or other problem that caused a lot of current to flow very quickly.
Is some cases a fuse will open up fast enough when there is a surge so that other components aren't damaged. If this is the case, replacing the fuse with one of the same type and rating restores operation. Unfortunately, a high probability exists that if a fuse blew, something in the circuit it was protecting shorted out. In this case, a replacement fuse blows right away. The blown fuse can easily be replaced by a new one, after the overload has been eliminated when come into replacement. Use only the same current and voltage ratings as the original. The common type and current rating of a fuse in a monitor are slow blow 2A to 5A. When you buy replacement fuses, get several - you can easily use all of them while you're troubleshooting an elusive problem.
Testing Fuses
Turn the power off and remove the fuse from the circuit to check with a multimeter set to the lowest ohms range. Connect the probes to both end of the fuse. You may check the fuse while it still in circuit. A good fuse should showed continuity or read 0 ohm. A blown fuse is open which reads infinity on the meter.
Jestine Yong is a electronic repairer and writer. For more information about how you can test electronic components like a professional please visit his website at http://www.TestingElectronicComponents.com
What is Frequency Specific Microcurrent?
FSM is used to treat nerve and muscle pain and many other conditions using specific frequencies and micro amperage current. There are hundreds of practitioners in the US, Australia and Canada using FSM to create remarkable changes in patients to reduce pain and improve health. Most of the time FSM produces immediate dramatic changes in tissue that make it an indispensable tool in treating pain and many other health concerns.
For example, there is one frequency that is only useful for shingles and herpes. In the shingles prodrome it eliminates the pain and prevents the blisters from breaking out. In herpes outbreaks it eliminates the pain and heals the blisters in hours with only a one hour treatment. This frequency combination is only good for this purpose and is not useful for anything else. We have not found anyone it does not work on or any other condition for which it is useful. In a blind animal study the frequency to reduce inflammation succeeded more effectively than any drug ever tested in this animal model. No other frequency reduced inflammation at all. The frequency specific effect is remarkable and reproducible.
Micro current is current in millionths of an ampere. An ampere is a measure of the movement of electrons past a point. Microamperage current is the same kind of current your body produces on its own within each cell. This is current in millionths of an amp. It is very small; there is not enough current to stimulate sensory nerves so the current flow cannot be felt but can be monitored using the conductance meter on the machine.
The History of FSM
Microcurrent was first used in the 1980s by physicians in Europe and the US for stimulating acupuncture points, stimulating healing in injured athletes and stimulating bone repair in non-union fractures.
Who is Dr. Carolyn McMakin?
Dr. McMakin developed protocols for the treatment of myofascial pain in 1996 and presented her clinical data at the American Back Society national meeting in December 1997. She published a paper on the "Treatment of chronic resistant myofascial pain in the head neck and face." in 1998 in Topics in Clinical Chiropractic. Dr. McMakin began teaching FSM in 1997 to see if the effects of FSM were reproducible. By June of 1997 it was clear that the effects were reproducible in the differential diagnosis of pain generators and neurologic conditions.
Originally developed in the early 1900s, Microcurrent was introduced as a battery operated therapy modality in the 1980s and Microcurrent devices deliver frequencies and current in millionths of an amp and have been shown in published studies to increase energy production in cells by 500%.
Frequency protocol development began in 1995 and Dr. McMakin began teaching FSM in 1997. Since then hundreds of practitioners around the world have taken the studied FSM and use this amazing technique to help patients recover from myofascial pain, fibromyalgia, sports injuries, concussion and many other health concerns.
Protocols for treating neuropathic pain were developed by Dr. McMakin in 1998. In 1999 she then developed a protocol for treating the full body pain from fibromyalgia caused by neck injuries. The paper was published in the Journal of Bodywork and Movement therapies in July of 2005.
It documents unheard of changes in inflammatory cytokines and neuropeptides with the use of a specific frequency protocol and microcurrent application.
Dr. McMakin has spoken at fibromyalgia conferences and medical and complementary medical meetings around the US, Europe and Australia. She presented the cervical trauma fibromyalgia treatment data at the National Institutes of Health.
About the Author
This article was written by Greg Merriman of National Training Centre - http://www.ntc.ie - providing
Fitness Courses Dublin, Pilates Courses, Sports Massage Courses, Personal Trainer Certification
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Vector direction of electrons in a magnetic field?
This diagram represents an electron moving at 2.0x10^6 meters per second into a magnetic field which is directed in to the paper. the magnetic field has a strength of 2.0 Newtons per ampere-meter.
B
x x x x x
x x x x x
e ---->
x x x x x
x x x x x
Which vector best indicates the direction of the force on the electron?
a)right c) up
b)left d) down
Let x point to the right, y point up, and z point toward you out of the screen. This is a right-hand-rule coordinate system. Let's also choose convenient units where the magnitude of everything happens to be 1.
Then q is -1 (it's an electron), v is (1,0,0), and B is (0,0,-1).
Hence, q v × B is (0, -1, 0). (If you prefer, x-hat × z-hat = - y-hat, which gives us three negative signs.)
This would be the down direction.
Point your index finger of your right hand along v and your middle finger along B, and then confirm that this gives you "up." But since the electron has a negative charge, you get the same result.
Either way.
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Universal Display Corporation (NASDAQ:PANL), enabling energy-efficient displays and lighting with its UniversalPHOLED™ technology and materials, today will unveil a new light-blue phosphorescent OLED emitter system at the Society for Information Display’s (SID) 2010 International Symposium, Seminar and Exhibition, being held at the Washington State Convention Center in Seattle, WA from May 23 ...
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