William Campbell Company New York – Merger and Acquisition Overview in Small-business


This article is intended to help potential clients better understand the M&A process. It reflects our experience that most business owners have little idea of the process, and yet want and deserve to be fully informed.

Typical Merger & Acquisition Cycle


Advice on the M&A process. / A preliminary, free of charge, Business Valuation. / Assessment of current M&A market conditions in the relevant industry sector. / Transaction timetable: A review of any upcoming business events, cash flow issues and others. / Exploration of exit strategies based on the client’s goals and business position. / Begin Development/ Campaign execution / Deal Comparison and Structuring / Closing Stages.


Before starting an assignment, we work together with clients to build a complete set of milestones and target dates associated with the M&A cycle.

Then, during the M&A sales cycle we hold regular reviews with you to assess how far we’re along the plan and how well it’s working. In this way you can be sure that William Campbell Company is performing as expected, not placing you on the back burner.

The net targeted aim is to complete a transaction on-time and on-budget, fulfilling your plans and objectives with no surprises or unnecessary delays.

Our clients can rest assured knowing that We will maintain complete confidentiality until disclosure is absolutely necessary and approved by you. This protects the interests of your company, and along with it, your personal interest and your employees interest.

For complete details of our services, please contact us directly.

William Campbell Company is an Investment Banking and Business Consulting firm. Over many years, in the USA and Worldwide, our principals, most ofwhom are actually ex – C-level Executives, have driven and took part in numerous Mergers and Acquisitions. We’re professionally conscious of the progression, planning, and methods to formulate a tactical benefit in stressed occasions.

Numerous companies are battling to keep an upward momentum in this time of restricted credit and gradual development. The incidents of recent months could have sorely examined business enterprise outcomes.

However we feel inclusion of appropriate sophisticated business routines, cautious monetary administration or wise strategic industry improvement could deliver extraordinary possibilities to the private organization, business proprietor or buyer considering beyond the gloom and tragedy of today’s industry.



Uses of Medical Marijuana in Sacramento CA in Medical

Medical cannabis has this substance called, THC that helps in blocking bad cancer cells to spread all over the body. This substance can also help in lessening the pain done by medical conditions such as muscle and body pain and even to cancer and Aids.

Below are the other medical conditions than can be cured by medical cannabis;

Medical Marijuana can cure Arthritis – It was proven by so many adults that medical cannabis can help ease the pain of arthritis and even rheumatism. Arthritis affects the joints and surrounding areas, including muscles, membrane linings and cartilage.

Arthritis causes painful inflammation, heat, swelling, pain, redness of skin and tenderness in the affected areas. Cortisone-type drugs provide dramatic pain relief for short periods but decrease in effectiveness if used over time. The side effects of these drugs include nausea, restlessness, insomnia, dizziness, headache, depression and mood swings, irregular heartbeat and menstruation problems.

In a recent study, several cannabinoids have both analgesic (pain-relieving) and anti-inflammatory effects, a combination particularly helpful for arthritic people. Cannabidiol (CBD), one of the main active ingredients in cannabis is a very effective anti-inflammatory agent. Cannabis can be smoked or eaten to relieve the general pain, inflammation and discomfort of arthritis. Cannabis poultices can be applied topically to troubled areas. Cannabis in alcohol or as a cream can also be rubbed on the skin.

Medical Cannabis can bring back good appetite – Having an appetite lost? Then try to use medical cannabis to bring back good appetite. This alternative medicine can play a great role in restoring a person’s relationship to food.

Cannabis can heal other medical disorders – Medical marijuana is remarkably powerful in combating nausea and vomiting. Medical cannabis is also effective in healing medical conditions like AIDS, Parkinson’s disease, Turret’s Syndrome, kidney failure, tuberculosis, hyperemesis gravidarum (magnified form of morning sickness) and anorexia and it helps lessening the pain caused by chemotherapy, a type of cancer treatment.

Medical Cannabis as an effective analgesic – According to some medical doctors, this alternative medicine is proven safe and effective as an analgesic. It is effective in many cases where other drugs have failed. Smoking or eating cannabis also seems to provide relief where standard treatments fail. The effectiveness of cannabis in treating various diseases from nausea, vomiting, headaches to Parkinson’s disease, Aids and cancer chemotherapy is dose-related. The higher the blood levels of THC, the more complete the relief of vomiting.


The Progress of Knowledge process outsourcing (KPO) Jobs in Service

Before we begin to understand the role the market plays for KPO jobs; let us first find out what is KPO and how different is it from BPO (Business Process Outsourcing).

As we are aware KPO is short for Knowledge Process Outsourcing, which means this is a process wherein information and knowledge is being processed in another country or by a third part company on subsidized rates.

The services performed within KPO jobs are:
1.Consultancy and Training Services
2.Legal Services. Sometimes this service is taken care of LPOs (Legal Process Outsourcing) separately.
3.Content Research and Development
4.Financial Services and Consultancy
5.Research and Development of Information
6.Healthcare Services
7.Advanced Web Application Services
8.Market Research for any Business
9.Learning Solutions
10.Data Collection and Analysis
11.Animation and Design
12.Network Management
13.Research on Intellectual Property
14.Software Development
15.Medical Transcription

A company who offers KPO services may offer all the above services or offer only few of them; however, since KPO is rapidly growing many KPO companies offer more than just one service.

The difference between KPO and BPO is; in KPO a person should have the knowledge and expertise in a particular domain. For example, let’s take Market Research; a person offering KPO services in this domain must be an expert in market research and analysis wherein in BPO it’s not only knowledge that is required but quantity, the ability, and the quality of work that you deliver matters.

Furthermore, KPO is also commonly known to be an extension of BPO with of course it being more a defined valued service.

It is believed that over 100,000 KPO jobs are being sent to India each year because India is known to house skilled professionals like doctors, lawyers, chartered accountants (CAs), software engineers, trainers, etc in abundance.  This is not all; it is estimated that more and more KPO projects will be sent to India in the next few years and then the job market for KPO jobs will be on an all-time rise.

Major companies like Deloitte, GE Capital, Accenture, EVS (Evalueserve), MarketRX, Mckinsey & Company, and many more are known to be the top players for KPO services. Some of these companies have recently made an announcement of developing their KPO services in order to take on newer KPO projects from international markets.  

KPO is going to be the next big uprising in the outsourcing segment and due to this there will be more and more job openings. Skilled professionals joining any KPO company can be assured that he/she will get a good pay package, job security, and growth.

Men and women with the proper education (preferably an MBA), experience, and analytical skills can look forward to a bright and worthy career in the KPO industry. The main two hubs for KPO companies in India are Bangalore and Chennai.

In closing, if you are still contemplating if you should get into a KPO job then you must do so now as this is the right time.

Car Hauler Careers in Car

Car haulers transport vehicles to various locations throughout the country. Car haulers operate different equipment depending on customer requirements. Car haulers can operate a standard semi-truck or may use a pickup truck to haul loads. Car haulers may own their own equipment, which can be leased to an auto carrier company, or use equipment provided by their employer.

10-Car Open Carrier
This is the most common type of carrier for transporting automobiles and offers the most job opportunities for car haulers. Car haulers use a semi-truck attached to a dual-level, 10-car carrier to move vehicles to their destination. Many times, the cars are from different customers and final delivery will include more than one destination that are often residential areas where unloading may be difficult. Car haulers load and unload the vehicles and protect them from damage or inclement weather during the transport.

Hot Shot
Some customers or private owners may only want to ship three or four vehicles to a specific destination. These loads are typically hauled by “hot shot” drivers who specialize in smaller loads known as “less than truckloads,” or LTLs. LTLs are defined as shipments weighing less than 10,000 lbs. Most hot shot transporters are heavy-duty pickup trucks or dually trucks that can carry heavier loads. Hot shot drivers typically work with a broker to obtain loads and find deliveries to return to their homes.
Enclosed Car Hauler
Drivers operating enclosed car haulers are employed by individuals and businesses interested in providing the most protection for their vehicles. Drivers may be transporting classic or antique cars that are expensive and need to arrive in pristine condition, and some race car companies use enclosed car haulers to transport their race cars to events. Generally, loads on enclosed car haulers cost more to the customer than the open carrier or hot shot loads. Enclosed car hauler drivers can haul one or two cars.

Flatbed Carrier
Drivers who haul flatbed carriers typically haul trucks or recreational vehicles that can’t fit onto an open car hauler or inside an enclosed trailer. Flatbeds can be pulled by a semi- or pickup truck depending on the amount of weight hauled. Flatbed carriers have to strap down their loads and load and unload the carrier. Most flatbed loads contain a single vehicle, but some customers may include other cargo on the load because of the high price of using a flatbed carrier.


Auto Repair Silver Spring Guide in Auto-repair

Major companies in this industry such as Ford, Mercedes, Chevrolet, and Volkswagen provide electronic auto repair guides so that even amateur users can learn a lot about auto repair. Auto repair guides usually tell you how repairs are done on all major parts of an automobile including the brake system, cooling system, electrical system, engine system, A/C-heat system, body and exterior, exhaust system, fuel system, steering and suspension system, and drive train.

Anybody can carry out Do It Yourself Auto Repair, anybody old enough to own a car, and calm headed enough to follow some sets of repair instructions can successfully carry out Do It Yourself Auto Repair. It does not require deep knowledge of engineering or mechanism, just the ability to believe in yourself and follow instructions.

Yes, you can reduce failure or mistakes in your Do-it-yourself auto repairs by following the right guides, by obeying Do-it-yourself auto repair instructions to the letter. These instructions you can get in your auto repair manuals.

It is important to verify whether your car is still under warranty before venturing to repair the car yourself. For cars under warranty, the repair work must be performed by a mechanic or a technician certified by the manufacturer. There are many auto repair silver spring to help you in this regard. The repair in this case is usually carried out at the dealer’s service center. Some manufacturers do not offer to perform repair work and you may have the provision of carrying it out elsewhere. Read your warranty carefully to find out how you can get the repair costs reimbursed.

By knowing the basics, you can perform simple troubleshooting procedures when your car breaks down, instead of sending it to a mechanic right away.

You will not have to spend massive amounts of money just to hire a professional for a simple job you can do yourself, such as adjusting a few loose screws or cooling an overheating radiator.


what is the best method to repaint my no.cal.house that is sided with 6″ horiz cedar shiplap.?

this house was built in 1989. all of the cedar siding was back primed with oil based primer.with the smooth side on the outside it recieved a coat of latex prmer and one coat of latex semigloss applied with an airless sprayer. after 4 yrs the paint started to bubble and peel up in largte sheets.lots of .had trhe house painted again using the standard method of scrapping,vinyl spackling, sanding, priming with kilkz and airless spraying. 3yrs later, same thing only much more paint peeling and blistering-you can pull the paint off in strip sheets. finaly ended up experimenting on one garage wall(successfully) using course wirewheel removal of old paint,then automotive bondo over the bad areas and auto satin enamel final coat. what should i do about the other walls? i really cant afford to reside them. rubberized paint? some kind of paint bonding agent?

Chosen Answer:

It sounds like you have a moisture problem. Do you know for sure that a vapor barrier was properly installed with the insulation? I’m surprised that a latex primer was used since oil is better at preventing tannin stains from bleeding through… unless the topcoat is a color that conceals these stains..Anyway.. you might need to install some 1″ diameter vents at the top of the walls to vent moisture out of the wall and/or use dehumidifiers to control moisture inside the house during days of mild temperatures & very high humidity. You might ask a paint dealer about using elastomeric paint as well.
by: David C
on: 12th October 06

Magnetic Energy Motors – Free Energy Revolution Revealed in Energy

Thanks to some very energy efficient masterminds magnetic motors are now a reality. These motors can provide an unlimited amount of free energy to domestic consumers and households. These motors operate by using zero point energy which is a vast sea of energy that surrounds us.

This energy efficient technology is new to most homeowners. However, generating free energy using magnetic motors is not that new at all. You see, this kind of technology has been in development for years now.

Governments and energy companies for years have been trying to keep the use of this technology underground. Meanwhile energy efficient pioneers all over the world have been working on making these motors surface and be available to the world. Take a look at some of the reasons why top energy companies don’t want this energy efficient technology to become popular.

  • They don’t want you to know that you can eliminate your energy bill by implementing one of these motors on a full scale.
  • They don’t want you to know that these motors can work in any weather conditions because it doesn’t depend on wind or sunlight.
  • They don’t want you to know that you can generate more energy than your house actually needs and sell some of this extra energy back to them.
  • They don’t want you to know that these motors work in any home and don’t require a lot of space.
  • They don’t want you to know that you can build one of these motors easily even if you don’t have no experience.

With the right detailed plans you can quickly and easily build your own magnetic motor and begin generating free energy.

To put it simply, these motors basically uses the properties of magnets and magnetic force to induce perpetual motion.

A magnetic motor generator cost very little money, yet they can effectively generate electricity. In this article, you will learn how they work. And you must know some terminology in order to fully understand about the generator. It is important to know that there is no such thing as a generator which can provide other machines with power. This one powers itself first. The part which controls the amount of electricity in this kind of generators is the magnet inside the machine. You don’t have to pay money for these generators but just build it and then it is ready to use. It doesn’t matter how much electricity you want, it can produces electricity with no limit.

Many energy efficient insiders believe that these motors will be in everyday use by 2020. Although energy companies don’t want this technology to surface it is far too late to stop this energy efficient revolution now.


What metals are most automobiles made of?

Give two reasons why this is the metal most widely used in the automotive industry.

Chosen Answer:

Steel, iron, aluminum with a dash of copper (for the wiring).

Strong, durable, light, cheap.
by: pisgahchemist
on: 23rd February 09

More About Stepper Motors in Motor

A new development in stepper control is to incorporate a rotor position feedback (e.g. an encoder or resolver), so that the commutation can be made optimal for torque generation according to actual rotor position. This turns the stepper motor into a high pole count brushless servo motor, with exceptional low speed torque and position resolution. An advance on this technique is to
normally run the motor in open loop mode, and only enter closed loop mode if the rotor position error becomes too large this will allow the system to avoid hunting or oscillating, a common servo problem.

There are three main types of stepper motors:

1. Permanent Magnet Stepper (can be subdivided in to ‘tin-can’ and ‘hybrid’, tin-can being a cheaper product, and hybrid with higher quality bearings, smaller step angle, higher power density)
2. Hybrid Synchronous Stepper
3. Variable Reluctance Stepper
4. Lavet type stepping motor Permanent magnet motors use a permanent magnet (PM) in the rotor and operate on the attraction or repulsion between the rotor PM and the stator electromagnets. Variable reluctance (VR) motors have a plain iron rotor and operate based on the principle that minimum reluctance occurs with minimum gap, hence the rotor points are attracted toward the stator magnet poles. Hybrid stepper motors are named because they use a combination of PM and
VR techniques to achieve maximum power in a small package size. Two-phase stepper motors

There are two basic winding arrangements for the electromagnetic coils in a two phase stepper motor: bipolar and unipolar. Unipolar motors

A unipolar stepper motor has two windings per phase, one for each direction of magnetic field. Since in this arrangement a magnetic pole can be reversed without switching the direction of current, the commutation circuit can be made very simple (e.g. a single transistor) for each winding. Typically, given a phase, one end of each winding is made common: giving three leads per phase and six
leads for a typical two phase motor. Often, these two phase commons are internally joined, so the motor has only five leads.

A microcontroller or stepper motor controller can be used to activate the drive transistors in the right order, and this ease of operation makes unipolar motors popular with hobbyists; they are probably the cheapest way to get precise angular movements.
Unipolar stepper motor coils (For the experimenter, one way to distinguish common wire from a coil-end wire is by measuring the resistance. Resistance between common wire and coil-end
wire is always half of what it is between coil-end and coil-end wires. This is because there is twice the length of coil between the ends and only half from center (common wire) to the end.) A quick way to determine if the stepper motor is working is to short circuit every two pairs and try turning the shaft, whenever a higher than normal resistance is felt, it indicates that the circuit to the
particular winding is closed and that the phase is working. Bipolar motor Bipolar motors have a single winding per phase. The current in a winding needs to be reversed in order to reverse a magnetic pole, so the driving circuit must be more complicated, typically with an H-bridge arrangement (however there are several off the shelf driver chips available to make this a simple affair).
There are two leads per phase, none are common. Static friction effects using an H-bridge have been observed with certain drive topologies[citation needed].
Because windings are better utilized, they are more powerful than a unipolar motor of the same weight. This is due to the physical space occupied by the windings. A unipolar motor has twice the amount of wire in the same space, but only half used at any point in time, hence is 50% efficient (or approximately 70% of the torque output available). Though bipolar is more complicated to drive,
the abundance of driver chip means this is much less difficult to achieve.

An 8-lead stepper is wound like a unipolar stepper, but the leads are not joined to common internally to the motor. This kind of motor can be wired in several configurations:

Bipolar with series windings. This gives higher inductance but lower current per winding.
Bipolar with parallel windings. This requires higher current but can perform better as the winding inductance is reduced.
Bipolar with a single winding per phase. This method will run the motor on only half the available windings, which will reduce the available low speed torque but require less current.

Higher-phase count stepper motors

Multi-phase stepper motors with many phases tend to have much lower levels of vibration, although the cost of manufacture is higher. These motors tend to be called ‘hybrid’ and have more expensive machined parts, but also higher quality bearings. Though they are more expensive, they do have a higher power density and with the appropriate drive electronics are actually better suited to
the application[citation needed], however price is always an important factor. Computer printers may use hybrid designs.
Stepper motor drive circuits
Stepper motor performance is strongly dependent on the drive circuit. Torque curves may be extended to greater speeds if the stator poles can be reversed more quickly, the limiting factor being the winding inductance. To overcome the inductance and switch the windings quickly, one must increase the drive voltage. This leads further to the necessity of limiting the current that these high voltages may otherwise induce.
L/R drive circuits
L/R drive circuits are also referred to as constant voltage drives because a constant positive or negative voltage is applied to each winding to set the step positions. However, it is winding current, not voltage that applies torque to the stepper motor shaft. The current I in each winding is related to the applied voltage V by the winding inductance L and the winding resistance R. The resistance R determines the maximum current according to Ohm’s law I=V/R. The inductance L determines the maximum rate of change of the current in the winding according to the formula for an Inductor dI/dt = V/L. Thus when controlled by an L/R drive, the maximum speed of a stepper motor is limited by its inductance since at some speed, the voltage U will be changing faster than the current I can keep up. In simple terms the rate of change of current is L X R (e.g. a 10mH inductance with 2 ohms resistance will take 5 ms to reach approx 2/3 of maximum torque or around 0.1 sec to reach 99% of max torque). To obtain high torque at high speeds requires a large drive voltage with a low resistance and low inductance. With an L/R drive it is possible to control a low voltage resistive motor with a higher voltage drive simply by adding an external resistor in series with each winding. This will waste power in the resistors, and generate heat. It is therefore considered a low performing option, albeit simple and cheap.
Chopper drive circuits
Chopper drive circuits are also referred to as constant current drives because they generate a somewhat constant current in each winding rather than applying a constant voltage. On each new step, a very high voltage is applied to the winding initially. This causes the current in the winding to rise quickly since dI/dt = V/L where V is very large. The current in each winding is monitored by the controller, usually by measuring the voltage across a small sense resistor in series with each winding. When the current exceeds a specified current limit, the voltage is turned off or “chopped”, typically using power transistors. When the winding current drops below the specified limit, the voltage is turned on again. In this way, the current is held relatively constant for a particular step position. This requires additional electronics to sense winding currents, and control the switching, but it allows stepper motors to be driven with higher torque at higher speeds than L/R drives. Integrated electronics for this purpose are widely available.
Phase current waveforms
A stepper motor is a polyphase AC synchronous motor (see Theory below), and it is ideally driven by sinusoidal current. A full step waveform is a gross approximation of a sinusoid, and is the reason why the motor exhibits so much vibration. Various drive techniques have been developed to better approximate a sinusoidal drive waveform: these are half stepping and microstepping.Different drive modes showing coil current on a 4-phase unipolar stepper motor.
Wave drive
In this drive method only a single phase is activated at a time. It has the same number of steps as the full step drive, but the motor will have significantly less than rated torque. It is rarely used.
Full step drive (two phases on)
This is the usual method for full step driving the motor. Two phases are always on. The motor will have full rated torque.
Half stepping
When half stepping, the drive alternates between two phases on and a single phase on. This increases the angular resolution, but the motor also has less torque (approx 70%) at the half step position (where only a single phase is on). This may be mitigated by increasing the current in the active winding to compensate. The advantage of half stepping is that the drive electronics need not change to support it.
What is commonly referred to as microstepping is actually “sine cosine microstepping” in which the winding current approximates a sinusoidal AC waveform. Sine cosine microstepping is the most common form, but other waveforms are used [1]. Regardless of the waveform used, as the microsteps become smaller, motor operation becomes more smooth, thereby greatly reducing resonance in any parts the motor may be connected to, as well as the motor itself. Resolution will be limited by the mechanical stiction, backlash, and other sources of error between the motor and the end device. Gear reducers may be used to increase resolution of positioning.
Step size repeatability is an important step motor feature and a fundamental reason for their use in positioning.
Example: many modern hybrid step motors are rated such that the travel of every full step (example 1.8 Degrees per full step or 200 full steps per revolution) will be within 3% or 5% of the travel of every other full step; as long as the motor is operated within its specified operating ranges. Several manufacturers show that their motors can easily maintain the 3% or 5% equality of step travel size as step size is reduced from full stepping down to 1/10 stepping. Then, as the microstepping divisor number grows, step size repeatability degrades. At large step size reductions it is possible to issue many microstep commands before any motion occurs at all and then the motion can be a “jump” to a new position.
A step motor can be viewed as a synchronous AC motor with the number of poles (on both rotor and stator) increased, taking care that they have no common denominator. Additionally, soft magnetic material with many teeth on the rotor and stator cheaply multiplies the number of poles (reluctance motor). Modern steppers are of hybrid design, having both permanent magnets and soft iron cores.To achieve full rated torque, the coils in a stepper motor must reach their full rated current during each step. Winding inductance and reverse EMF generated by a moving rotor tend to resist changes in drive current, so that as the motor speeds up, less and less time is spent at full current thus reducing motor torque. As speeds further increase, the current will not reach the rated value, and eventually the motor will cease to produce torque.
Pull-in torque
This is the measure of the torque produced by a stepper motor when it is operated without an acceleration state. At low speeds the stepper motor can synchronise itself with an applied step frequency, and this pull-in torque must overcome friction and inertia. It is important to make sure that the load on the motor is frictional rather than inertial as the friction reduces any unwanted oscillations.
Pull-out torque
The stepper motor pull-out torque is measured by accelerating the motor to the desired speed and then increasing the torque loading until the motor stalls or misses steps. This measurement is taken across a wide range of speeds and the results are used to generate the stepper motor’s dynamic performance curve. As noted below this curve is affected by drive voltage, drive current and current switching techniques. A designer may include a safety factor between the rated torque and the estimated full load torque required for the application.
Detent torque
Synchronous electric motors using permanent magnets have a remnant position holding torque (called detent torque or cogging, and sometimes included in the specifications) when not driven electrically. Soft iron reluctance cores do not exhibit this behavior.
Stepper motor ratings and specifications
Stepper motors nameplates typically give only the winding current and occasionally the voltage and winding resistance. The rated voltage will produce the rated winding current at DC: but this is mostly a meaningless rating, as all modern drivers are current limiting and the drive voltages greatly exceed the motor rated voltage. A stepper’s low speed torque will vary directly with current. How quickly the torque falls off at faster speeds depends on the winding inductance and the drive circuitry it is attached to, especially the driving voltage.Steppers should be sized according to published torque curve, which is specified by the manufacturer at particular drive voltages or using their own drive circuitry.
Computer-controlled stepper motors are one of the most versatile forms of positioning systems. They are typically digitally controlled as part of an open loop system, and are simpler and more rugged than closed loop servo systems. Industrial applications are in high speed pick and place equipment and multi-axis machine CNC machines often directly driving lead screws or ballscrews. In the field of lasers and optics they are frequently used in precision positioning equipment such as linear actuators, linear stages, rotation stages, goniometers, and mirror mounts. Other uses are in packaging machinery, and positioning of valve pilot stages for fluid control systems. Commercially, stepper motors are used in floppy disk drives, flatbed scanners, computer printers, plotters, slot machines, and many more devices.



  • Set yourself apart from the rest with this fast and easy to use Horse Car Badge Set
  • It is made of durable plastic material with silvery finish for great look
  • The Horse Car Ornament Set comes with double sided adhesive tape on the back, just peel and stick
  • Each set contains 2 horse badges; Dimension (Each One): ~10.4(L) x 7(W) x 0.3(T)cm
  • Please use detergent to clean the surface of the target before stick it on

Weather resistant Horse Car Sticker Set is great for decorating your car;
It will adhere to most smooth non-porous surface, such as your car, truck, boat, motorcycle, and any other surface.

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List Price:
Price: $ 4.54