Manufacturing Day (“Mfg Day”) is held each year on the first Friday in October, but events associated with Mfg Day continue throughout the month. The purpose of these events is for educational institutions and companies to showcase modern manufacturing careers to students, parents, teachers, and community leaders. Experts predict that there will be 4.6 million new high-skill, high-tech jobs in the next 10 years, and Manufacturing Day is a great excuse for manufacturers to join together to encourage and inform students and adult learners to consider careers in the field to address the job market demand and highlight the benefits to communities of having qualified workers to meet the demand.
As the number of COVID-19 infections increases globally, some countries have turned to tracing technology in an attempt to contain the spread of the virus. Some governments have had success at it; others have not. This article will explore the use of mobile tracing technology to contain COVID and the reasons for the discrepancy in the success rate.
In a world where social media and political agendas make it hard to discern fact from opinion, there has never been a more pressing need for trained scientists and engineers. The current health crisis underscores the importance of rational decision-making based on data, sound analysis, and evidence from application of the scientific method. The simple truth is that reason leads to better outcomes, especially in emotionally-charged and politically divisive situations where the consequences of a poor decision are far-reaching.
Research has linked stress to physical reactions such as headaches, chronic inflammation, reduced immunity, asthma, digestive disorders, infectious disease, cardiovascular disease, and even cancer. It can cause deleterious consequences to mental health as well. In fact, scientific studies show a negative correlation between stress and creativity. Increased stress reduces creativity, and reduced stress improves it. In this article, we take a closer look at the impact of stress and how we can manage it to improve creativity.
Couplings are a simple components that are often overlooked until late in a project which can cause issues. If not give the proper care and attention to detail early they can become a source of frustration and even failure if handled incorrectly.
With a global customer base of over 15,000 firms in the aerospace, defense, medical, and industrial sectors, Designatronics, Inc., has emerged as a leader in the design and sale of high-quality small power transmission components. Since it began operations in 1950, the company has expanded to three brands: (1) Quality Bearings and Components (“QBC”); (2) QTC Metric Gears (“QTC”); and (3) Stock Drive Products/Sterling Instrument (“SDP/SI”). Its 87,000 powertrain products include gears, belt and chain drives, shafts, shaft accessories, bearings, couplings, universal joints, vibration mounts, miscellaneous components, hardware, gearheads and speed reducers, right angle drives, brakes and clutches.
“What critical medical components are currently vulnerable to supply chain disruptions, but could be sourced domestically with some prior planning and coordination?”
Every employer expects team members to be self-motivated. “If everyone just did their job, motivation would be irrelevant,” is the old adage. The problem is people are not machines. Their productivity and creative capacity waxes and wanes. Energy levels are different throughout any given day, week, and month. It is not enough to just say do it. The more enlightened, leadership-based approach calls on leaders to take an active responsibility in team performance.
The idea that leaders are the servants of those they lead has been around for centuries. It is ingrained in military leadership doctrine and for the last twenty or more years has gained traction in the business world. Servant leaders, as they were first termed by Robert Greenleaf in his 1971 essay, “The Servant as a Leader,” put the needs of those they lead first.
In October 2019, Google’s quantum computing team reported a breakthrough in quantum computing. Their newest system managed to complete a calculation in 3 minutes and 20 seconds that a traditional supercomputer would need 10,000 years to complete. Quantum Computers use quantum-mechanical phenomena such as superposition and entanglement to perform computations instead of electrically gated 1s and 0s in a traditional computer. Google’s experiment was one small step toward commercializing quantum technology and it raised the possibility of breakthroughs in a number of different fields such as artificial intelligence and engineering.