Resistors in Parallel Combination

Hello, fellows, I hope you all are doing great. In today’s tutorial, we will discuss the Resistors in Parallel. There are 2 main connection types that used to make circuitries. One is series contact and second is parallel. If the components in the circuitries are parallel to one another they have their own branch. These branches provide differents path for the current to flow. In parallel circuitries, the current has different value across every segment of circuitry and the voltage across each part is equal to the input voltage. To solve your parallel resistance circuitry you should try our online Parallel Resistance Calculator In today's post, we will have a look at such circuitries that have resistances connected in parallel and demonstrates how we can find the equivalent resistance of the circuitry and current and voltage across every component. So let's get started with a Resistors in Parallel.

Resistors in Parallel Combination

  • In electrical circuitries, the resistances are parallel connected if their both endpoints are connected with other resistance or resistances endpoints.
  • As in series resistance circuitry, there is one path for the current to flow but in the parallel circuitry, there are many paths for the current. Due to this parallel circuitries are also recognized as current divider circuitry.
  • As there are numerous ways for the current in parallel circuitry, so different current will flow across every part of the circuitry. The voltage will be alike to every resistance of circuitry.
  • In given below circuitry there are 3 resistances Rx, Ry, Rz, the voltage each of them will be the same.

VRx =VRy =VRz= 12V

  • The method to find the equivalent resistance is to just add all series resistance in the circuitry, but in parallel connected resistances we add reciprocal of each resistance for equivalent resistance.

1/Rt = 1/Ra + 1/Rb +1/Rc .....1/Rn

Currents in a Parallel Resistor Circuit

  • The net current passing through the parallel resistances circuitry is equivalent to the summation of the currents moving through every resistance of the circuitry.
  • But the current across every branch of the circuitry will not be similar, in conclusion, every resistance of the circuitry's branch tell about the current flowing through that branch.
  • For instance, as the voltage across every parallel resistor similar and due to different values of the resistance the current will not be alike.
  • Let's make a circuitry that has 2 parallel resistances, it is shown in the given figure.
  • The current passing through every resistance is IRx and IRy if we apply Kirchoff current law to this circuitry than we have.

It =IRx +IRy

  • If we apply ohm law to both resistance than we can find the current passing through them.

IRx = V/Rx= 12/20= 0.6 ampere

IRy =V/Ry= 12/47=0.255 amperes

  • So the total current will be.

It= 0.6 + 0.255= 0.855 amperes

Properties of Resistors in Parallel

  • In the given diagram a parallel resistance circuitry is shown that has 3 resistances Rx, Ry, Rz in parallel and one current source.
  • The current Ix is flowing from the source to 3 resistances of the circuitry and will divide into three different paths.
  • If we apply ohm's law to this circuitry than we have this expression.

Ix = IRx? + IRy? + IRz

  • The voltage across every resistance will be.

VRx = (IRx) . (Rx)

VRy = (IRy) . (Ry)

VRz = (IRz) . (Rz)

  • Now use these voltage value of every resistances and find the current flowing them.

IRx = VRx/Rx

IRy = VRy/Ry

IRz = VRz/Rz

  • If we add these 3 current the resultant value will be equal to the current source.

Ohm‘s Law and Parallel Resistors

  • To relate ohm's law and parallel combination of the resistor we take an example of the circuitry that the 3 resistors connected in parallel and voltage source are connected with them.
  • The voltage across every resistance is equal to the voltage source. If we apply ohm's law the current across every resistance will be.

I1 =(V)/(Rx)

I2=(V)/(Ry)

I3= (V)/(Rz)

  • According to charge conservation principle, the total current flowing in the circuitry will be equal to the current passing through these three resistances.

It = (I1 + I2 +I3)

  • If we put the values of currents flowing in the 3 resistance then we have.

I = (V)/(Rx) + (V)/(Ry) + (V)/(Rz)

I =V (1/Rx + 1/Ry + 1/Rz)

  • From this relation, we can conclude that the total resistance in parallel circuitry is equivalent to the summation of the inverse of every resistor.
  • So, equivalent resistance in parallel circuitry is.

Rn = 1/Rx + 1/Ry + 1/Rz +.........+1/Rn

Applications of the Parallel Resistance Circuit

  • These are some applications of the parallel resistance circuits.
  • Almost every house on this earth uses a parallel combination for electric wiring, as we can on-off and appliances of our home without removing all devices from the circuitry.
  • In case of any short circuit occurs at one device or it damage due to some electrical faults, we will off circuit to that particular device not the complete circuitry for fault removal.
  • Parallel circuitries are not used only in a home is also used in transmission and distribution of the power to large buildings and different areas.
  • Nowadays our grid stations are designed according to parallel circuitries combinations when the circuit of the feeder is trip, other feeders in the grid continue their working and deliver power to the load.

Parallel Resistance Calculator

  • As we discussed our Parallel Resistance Calculator now we discuss how you can use it for solving your circuitries.
  • You can see in the given figure parallel resistance calculator, there are 2 portions of this calculators first is on the left side where you can add values of your circuits resistances and on right side physical representation of circuitry is shown.
  • You can see in the given diagram, I have put different five values in the value box and get equivalent resistance of the circuitry. If your circuitry has large no of resistances you can add more resistance values by Add More Resistance option. You can also take values in kilo-ohm and mega-ohm.
It is the detailed article on the Resistors in Parallel if you have any question ask in comments. Thanks for reading.

How to Transform a Non-Profit Business with EOS

Hello friends, I hope you all are doing great. In today’s tutorial, we will discuss How to Transform a Non-Profit Business with EOS. EOS has been gaining popularity around the world, enhancing the level of the business. With experienced EOS implementers, any company can achieve the heights that they have thought. However, the question arises “Can EOS implementers help these non-profit organizations as well”? How come these EOS implementers help small budgeted companies with no profit? How their tactics play an important role in right traction? There are many organizations that provide consultancy to help companies and their leaders to manage their work in an easy systematic way. If you are looking for a business growth consultant, you can avail it from Traction for Businesses. So, let's get started with How to Transform a Non-Profit Business with EOS.

How to Transform a Non-Profit Business with EOS

What is EOS?
  • If we continue with EOS implementers, one should know what EOS is? It is a comprehensive business management system that works on a set of proven tools to help business leaders to get expected results and helps in achieving Vision, Traction, and Healthy.
  • This system helps in learning the methods that ensure accountability in any business.
  • Though, EOS is the fastest growing platform that allows running many applications over the network.
  • EOS was developed with for-profit companies in mind, and the same principles apply to non-profit organizations as well that are fighting in the market to be innovative and entrepreneurial.
  • If your leadership team is honest, and willing to be vulnerable with each other, then you’re the right kind of organization to run on EOS.
  • Any organization that entirely relies on the people to do its work can get benefit from the Entrepreneurial Operating System (EOS).
Why is EOS Implementers needed?
  • EOS is based on simple concepts, which is one of the reasons it’s proven to be so powerfully effective.
  • The real question is, Do we need EOS implementer?  Can business leadership self-implement EOS?
  • People have enough potential to implement it on their own, but should they?
  • There can be many challenges in self-implementing EOS that’s why we need Certified EOS implementers who can provide a vision and discipline to your company.
  • These implementers are experienced in their disciple and can be reliable traction for companies with low profit.
How EOS helps the company to get on track?
  • It is common sense to know your targets before the year starts and to keep track of your goals is necessary to achieve success.
  • However, the problem arises when a company has no idea of their progress and whether you are on the right track in achieving the expected success.
  • However, EOS tools have made this thing more comfortable to keep your tracks under your control.
  • It requires an EOS expert who can help you out in setting milestones and getting along with it.
  • It needs a strategy and needs to move step by step accordingly. With the help of EOS tools, you will see a noticeable improvement in keeping track of your targets.
  • So why wait till it’s late, hire an EOS implementer and move your company with expected profit and success.
So, it is the detailed article on How to Transform a Non-Profit Business with EOS, if you have any question ask in comments. Thanks for reading. Take care until the next tutorial.  

5 Reasons to Get A Degree in The Engineering Field

Hello, fellows, I hope you all are doing great. In today’s tutorial, we will discuss 5 Reasons to Get A Degree in The Engineering Field. Engineering represents the practical application of science and mathematics to find solutions to technical problems. Engineers don’t just sit back and watch. On the contrary, they design, invent, fix, improve, research, and so on. Engineers bring things to life, whether it’s physical buildings or robots. If you want to create technology and products that make our lives easier, think about getting a degree in the engineering field. Not only is it one of the most popular college majors but also one of the most profitable ones. It might just be the right fit. These reasons will convince you that engineering is the best degree. So let's get started with 5 Reasons to Get A Degree in The Engineering Field.

5 Reasons to Get A Degree in The Engineering Field

 Prestige, Acceptance, And Power
  • Stop for a moment to think about the value of college education. If you earn a B.A, in general engineering from no matter what university, you can do everything you want.
  • Well, almost. You can work in a laboratory or take on hours in a non-engineering industry like finance.
  • The point is that you won’t regret the money or years spent to get the degree. People will be amazed when they find out that you’re an engineer.
  • Your status will automatically win you the respect and trust of your acquaintances.
  • Needless to say, engineers enjoy the same prestige as lawyers and healthcare professionals.
  • Some of the most prestigious institutions in higher education offer engineering degrees. Examples include but aren’t limited to:
    • Georgia Institute of Technology
    • Indian Institute of Technology Delhi
    • Nanyang Technological University
    • The University of Cambridge
    • Harvard University
    • ETH Zurich
  • Just imagine what it would be like to graduate from a top educational institution.
  • The engineering schools mentioned earlier offer the most competent, innovative, and effective graduates, so it’s not hard to find employment.
  • What is more, the element of respect comes naturally.
You Can Make A Difference in The World Around You
  • Any person can make a difference in the world, let alone an engineer. Being part of a project, small or big, enables you to contribute to society.
  • You have the opportunity to create technological advancements that improve the way people live.
  • Take medical equipment as an example. You can work alongside doctors, therapists, and researchers to come up with innovative medical solutions that can solve clinical problems.
  • MRI machines, hearing implants, and ultrasound equipment wouldn’t have been possible if it weren’t for engineers.
  • In engineering school, you’re encouraged to reach meaningful goals and focus on the impact of globalization.
  • The knowledge and skills that you acquire during your student years will enable you to work in various international settings, as well as work environments.
  • You can use technologies to the same extent as your peers in other parts of the world.
  • The world is becoming increasingly connected, so it’s necessary to think globally.
  • You’ve got the power to shape the way individuals travel, communicate, exercise, and how they make use of energy.
  • At the end of the day, you’ll feel that you’ve really made a difference, which is no little thing.
High Standards Let You Know What You Aim For
  • Contrary to popular opinion, university standards haven’t fallen. Students enrol into programs that promote academic rigour and which are delivered by high-class educational institutions.
  • Engineering schools, in particular, establish very high standards. The result is that students have a good idea of what to aim for.
  • The vast majority of students learn more than is required of them. They hire private teachers so that they know everything about building machines and products.
  • You too may need assistance on certain subjects. Tutors have a student-centred approach, so everyone makes progress.
  • Your tutor may be a current or former school teacher or perhaps someone with experience in the field.
  • You’ll be able to strengthen subject comprehension and build significant learning skills. In order to become an engineer, you need excellent grades. Most courses don’t accept anything other than the best.
  • Yes, you’ll have to work hard, but you’ll be among the best. When you pursue general engineering, you have the chance to broaden your mind, increase your skillset, not to mention specialize in your area of interest.
  • You’ll receive your degree from industry professionals who know a thing or two. Understand the qualifications needed for the college or university you’re thinking of applying to and get ready.
 You Can Travel Around the World
  • So, you have a big desire to travel the world. If you want to explore the world while earning money and building your career, you should definitely study general engineering.
  • There are many, many opportunities for travelling and discovering new environments.
  • Cruise ships, for example, need engineers. If you haven’t started a family, you can obtain a high-paying job that enables you to travel without spending money on accommodation.
  • Let’s take another example. You can become an oil and gas field professional. There’s no shortage of travel opportunities.
  • As an engineer, you enjoy a great deal of freedom. You can go into technical consulting and you’ll be constantly on the move.
  • After a while, you’ll get tired of covering the ground. Or maybe you won’t. Even if you don’t want to travel the world, you’ll have to in order to make your career progress.
  • You’ll get to experience life in a completely different culture, become fluent in a foreign language, and work with international clients. Don’t miss out on such an opportunity.
Ready for Any Problem With 10 Solutions
  • Some life challenges are exceptionally difficult to handle. With a degree in engineering, you’ll be able to handle most issues.
  • In school, you’re introduced to all kinds of situations that need to be solved using engineering skills.
  • You even learn how to organize a messy desk. Chances are that you’ll encounter bigger problems that you did during your years of school. Nevertheless, your confidence and skills will help you in the decision-making process.
  • You’ll have at least 10 solutions for every problem.
  • Engineers are capable of solving all kinds of problems. Do you know what tool they resort to the most? Their creativity.
  • Start approaching each situation as an opportunity to learn. If you can’t come up with a solution yourself, seek guidance from others.
  • Nothing is unsurmountable. There’s no better degree that can teach you problem-solving skills than engineering.
  • The choice is up to you. To be more precise, decide if going to engineering schools is or isn’t the right thing for you.
It is the detailed article on the 5 Reasons to Get A Degree in The Engineering Field if you have any question ask in comments. Thanks for reading.

How Virtual Reality Helps Field Engineers Deliver Value

Hello, fellows, I hope you all are doing great. In today’s tutorial, we will discuss How Virtual Reality Helps Field Engineers Deliver Value. It’s no secret that technology is advancing rapidly and is transforming how field engineers are accomplishing tasks in projects. With virtual reality taking the lead, we are witnessing an unprecedented improvement in project quality and design in the engineering field. Virtual reality engineering involves visualization of projects using 3D modelling tools. It introduces the users directly into a computer-generated virtual environment, giving them an idea of what to expect in the field. With this technology, a field engineer can identify the potential risks and flaws in a project before implementation. So let's get started with How Virtual Reality Helps Field Engineers Deliver Value.

How Virtual Reality (VR) Works

  • Virtual reality is a trending technology that’s prominent in the gaming industry. But due to its potential, VR has proven to be a valuable asset in training.
  • Today, almost every industry is adopting virtual reality in its processes, including the construction sector.
Virtual Reality in Real Estate
  • When it comes to marketing in real estate, virtual reality has become an indispensable tool in the industry. This technology allows home sellers to showcase their properties through an interactive interface.
  • With virtual reality, homebuyers can assess the interior features of a house they intend to buy, making the process faster and cost-effective.
Virtual Reality in Construction
  • While some people perceive virtual reality as a gaming technology, it is also helpful in the construction industry.
  • Construction engineers can use the technology to design buildings, train workers, and promote on-site safety standards.
  • In the project design phase, engineers can showcase the building plans to their clients and customers.
  • The project designers use VR headsets to visualize the simulated virtual world of a construction project.
How to Use VR Headset in Construction
  • The headsets are usually linked to a smartphone or computer to transmit data. If you are using a smartphone, you can download the app for virtual reality.
  • The VR app integrates well with the VR headsets, allowing engineers to visualize images in three dimensions. Virtual reality headsets, also known as head-mounted devices (HMD), may come with additional accessories to help engineers navigate the virtual world.
  • Such features include wireless controllers and sensors.

Applications of Virtual Reality in the Engineering Field

  • Virtual reality offers an immersive experience to field engineers, allowing them to interact with projects virtually before implementation. Here is how VR technology has transformed operations in engineering.
Training of Field Engineers
  • Virtual reality training allows engineering companies to expose employees to new working environments without harming them virtually.
  • Also, VR training reduces the maintenance costs of equipment that workers might have damaged during the actual training.
  • For instance, construction companies have incorporated VR training in their operations to promote the safety of workers.
  • With virtual reality, workers can get exposed to great heights, confined spaces, and heavy equipment like excavators and cranes.
  • In some cases, the death of workers usually results from physical training exercises. For that reason, construction engineers see virtual reality as a potential tool for reducing fatalities.
  • Virtually trained workers can handle and operate physical machinery with much care.
  • As an OSHA-approved technology, virtual reality is a valuable tool for promoting the safety of workers in the field. Read this blog post by Procore Technologies to get more info about OSHA safety tips and standards.
Design and Development
  • As an integral part of engineering, designing helps engineers to gain insight into a project before implementing it practically.
  • Most designers have invested heavily in virtual reality to help them curb complications that might arise during project implementation.
  • With the help of virtual reality, construction engineers and architects can virtually get an accurate and detailed representation of a building before laying any foundation.
  • When used together with 3D modelling and BIM, designers can easily tour workspaces.
  • Besides modelling buildings, virtual reality has also been a ubiquitous technology in car design. Car manufacturers use this technology for prototyping when designing vehicles.
  • It eliminates the need to develop physical prototypes, saving on design costs.
  • Virtual reality can also be useful in pinpointing mistakes in project design. Once the field engineers have identified the potentially hazardous risks, they can record them in a punch list to correct them later.
  • Designing a project can involve many people and needs a collaborative platform to accommodate all stakeholders.
  • Virtual reality can allow various people with different expertise to interact in real-time on a single platform.
  • With a well-established collaborative framework, designers and engineers can know every progress in an engineering project.
  • That can help designers to make informed decisions, reducing complications that might arise during project implementation.

Virtual Reality Prototyping

  • In the past, field engineers used to develop products from a conceptual view. They would use quantitative measures from statistical data to define product features.
  • That made the production more expensive, risky, and time-consuming.
  • In recent times, virtual reality prototyping has become an integral part of any design process. Engineers are using the technology to create, test, and validate projects before implementation.
  • Virtual reality prototyping reduces the time it takes to complete a project, saving costs.
  • With VR prototyping, designers don’t have to manufacture expensive prototypes for trial projects. Most companies have adopted VR prototyping in product testing to save on time and money.
  • Such companies include Peugeot, BMW, Boeing, Jaguar, Ford, and Airbus.

Final Words

  • It's apparent that virtual reality is already making a significant impact on the engineering field. Field engineers are using this valuable tool to leverage complex production processes to improve project quality and productivity.
  • Virtual reality provides access to simulations that would help every stakeholder to visualize and understand projects.
  • By adopting VR technology in engineering, companies can make their designs and operations more interactive.
  • Since virtual reality is a potentially profitable technology, we expect more companies to adopt it. There is no doubt that VR technology is the future of engineering.
  • According to Architosh, it's estimated that the engineering industry will have devoted $4.7 billion to virtual reality by 2025.
It is the detailed article on the How Virtual Reality Helps Field Engineers Deliver Value if you have any question ask in comments. Thanks for reading.  
Syed Zain Nasir

I am Syed Zain Nasir, the founder of <a href=https://www.TheEngineeringProjects.com/>The Engineering Projects</a> (TEP). I am a programmer since 2009 before that I just search things, make small projects and now I am sharing my knowledge through this platform.I also work as a freelancer and did many projects related to programming and electrical circuitry. <a href=https://plus.google.com/+SyedZainNasir/>My Google Profile+</a>

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Syed Zain Nasir