The popularity of Georgia pecan pie can be attributed to several factors:
Abundance of Pecans: Georgia, particularly in the southern region of the United States, has a favorable climate for pecan trees. Pecans have been grown in Georgia for centuries, and the state has a long history of pecan cultivation. With such abundance, pecans became a staple ingredient in many traditional Southern recipes, including pecan pie.
Southern Culinary Tradition: Southern cuisine, known for its comfort foods and indulgent desserts, heavily features pecans in various recipes. Pecan pie is a classic Southern dessert that has been passed down through generations, becoming deeply ingrained in the culinary heritage of the region. Georgia, as a quintessential Southern state, plays a significant role in promoting and preserving these culinary traditions.
Cultural Significance: Pecan pie is not only a delicious dessert but also holds cultural significance in the South. It is often served during holidays and family gatherings, evoking feelings of warmth, nostalgia, and tradition. The act of sharing a slice of pecan pie with loved ones is a cherished tradition for many families in Georgia and throughout the South.
This content is accessible to paid subscribers. To view it please enter your password below or send mike@standardsmichigan.com a request for subscription details.
We need to re-scale and re-organize our approach to the mobility topic generally — responsive to most best practice discovery results — as recorded in technical literature and landing in regulations at all levels of government. The size of the domain has expanded beyond our means. We need to approach the topic from more angles — distinguishing among land, air and space mobility — following market acceptance and integration.
Throughout 2024 our inquiries will track relevant titles in the following standards catalogs:
Institute of Electrical and Electronic Engineers
International Code Council
National Fire Protection Association
ASHRAE International
We will maintain priority wherever we find user-interest issues in product-oriented standards setting catalogs (ASTM International, SAE International and Underwriters Laboratories, for example). Agricultural equipment standards (were Michigan-based ASABE is the first name) will be place on the periodic Food (Nourriture) and Water standards agenda. Each organization contributes mightily to the “regulatory state” where we are, frankly, outnumbered. When their titles appear in interoperability standards that affect the physical infrastructure of campuses we will explore their meaning to our safer, simpler, lower-cost and longer-lasting priority. (See our ABOUT)
Join us today at the usual time. Use the login credentials at the upper right of our home page.
The command issued by the character Captain Jean-Luc Picard in the television series “Star Trek: The Next Generation” finds its way into the archive of photographs of Nobel Laureates consorting with politicians at the University of Michigan and elsewhere.
Attendees of the Theoretical Physics Colloquium at the University of Michigan in 1929.
…”There’s not good math explaining forget the physics of it. Math explaining the behavior of complex systems yeah and that to me is both exciting and paralyzing like we’re at very early days of understanding you know how complicated and fascinating things emerge from simple rules…” — Peter Woit [1:16:00]
Since 1936 the Brown Jug has been the ancestral trough of generations of University of Michigan students and faculty — notably. Donald Glaser (inventor of the bubble chamber) and Samuel C. C. Ting (Nobel Laureate) whose offices at Randall Laboratory were a 2-minute walk around the corner from The Brown Jug. As the lore goes, the inspiration happened whilst watching beer bubbles one ordinary TGIF Friday.
Today we refresh our understanding of the discovery and application of the mathematical constant π. The Greek letter π was chosen because it is the first letter of the Greek word “periphery” or “circumference” (περιφέρεια in Greek). It was a natural choice to represent this mathematical constant, which is fundamental to geometry and many other fields of mathematics and science.
Its value was not determined by any one person or organization. Rather, it is a convention that developed over time through the work of many mathematicians; starting with Archimedes. The earliest known use of the symbol π for the ratio of a circle’s circumference to its diameter was by Welsh mathematician William Jones in 1706. However, it was the Swiss mathematician Leonhard Euler who popularized the use of π in the 18th century. Euler used π in his numerous mathematical publications, and his influence helped establish the use of the symbol as standard notation.
e^(i*pi) + 1 = 0
The Euler equation is a mathematical equation that is widely used to analyze the behavior of electrical circuits and to calculate the complex power and reactive power. The complex power of an electrical circuit is a complex number that represents the total power in the circuit, including both the real power (which represents the energy that is actually consumed by the load) and the reactive power (which represents the energy that is stored and released by the circuit’s reactive elements).
The Euler equation is used to represent the complex power in polar form, where the magnitude represents the total power in the circuit, and the phase angle represents the relative contributions of the real and reactive power. By using complex power analysis, engineers can calculate the real power, reactive power, and apparent power (which is the magnitude of the complex power) of the circuit, as well as the power factor, which is the ratio of the real power to the apparent power.
Power factor is an important parameter in AC circuits, as it represents the efficiency with which the circuit is delivering power to the load.
Overall, complex power analysis provides a powerful tool for analyzing the behavior of AC circuits, and it is used extensively in the design and analysis of electrical power systems, shown in the polar form phasor calculation below.
From “Electrical Power System Protection and Coordination” Michael A. Anthony, McGraw-Hill Book Company 1994
Today at 15:00 UTC we will examine this calculation specifically, but also expand upon how the value of π shows up in nearly every other engineering discipline. Use the login credentials at the upper right of our home page.
More:
There are several physical constants that are considered to be important in the known universe. These constants are fundamental properties of nature and do not change over time or space. Here are some of the most important physical constants:
Speed of light (c): This constant represents the speed at which light travels in a vacuum. Its value is approximately 299,792,458 meters per second. This constant plays a critical role in our understanding of the universe and is the fastest speed that anything can travel in the known universe.
Planck constant (h): The Planck constant is a fundamental constant of nature that appears in almost all quantum mechanical equations. Its value is approximately 6.626 x 10^-34 joule-seconds. It plays a crucial role in the description of the behavior of subatomic particles and is used in calculations involving quantum mechanics.
Gravitational constant (G): The gravitational constant represents the strength of the gravitational force between two objects. Its value is approximately 6.674 x 10^-11 newton-meters squared per kilogram squared. This constant plays a crucial role in the study of gravity and is used in calculations involving celestial mechanics.
Boltzmann constant (k): The Boltzmann constant relates the average kinetic energy of particles in a system to its temperature. Its value is approximately 1.381 x 10^-23 joules per Kelvin. This constant is important in statistical mechanics and is used in calculations involving the behavior of gases, liquids, and solids.
Avogadro constant (NA): The Avogadro constant represents the number of particles in one mole of a substance. Its value is approximately 6.022 x 10^23 particles per mole. This constant is important in the study of chemistry and is used in calculations involving chemical reactions and the properties of materials.
Electron charge (e): The electron charge represents the fundamental charge of an electron. Its value is approximately -1.602 x 10^-19 coulombs. This constant is important in the study of electromagnetism and is used in calculations involving electric fields and electric currents.
These constants are critical to our understanding of the universe and are used in a wide variety of fields, from physics and chemistry to engineering and technology.
Happy Birthday!!
Albert Einstein, 14 March 1879 – 18 April 1955.
What else could you say about this great genius?
His works and ideas revolutionized our way of looking at the nature of spacetime. pic.twitter.com/OGljdrrYe8
“Livres des Merveilles du Monde” 1300 | Marco Polo | Bodleian Libraries, University of Oxford
Today we break down consultations on titles relevant to the technology and management of the real assets of education communities in the United States specifically; but with sensitivity to the global education markets where thousands of like-minded organizations also provide credentialing, instruction, research, a home for local fine arts and sport.
Extended Versions Certain standards are required to be read in tandem with another standard, which is known as a reference (or parent) document. The extended version (EXV) of an IEC Standard facilitates the user to be able to consult both IEC standards simultaneously in a single, easy-to-use document.
A partial list of projects with which we have been engaged as an active participant; starting with the original University of Michigan enterprise in the late 1990’s and related collaborations with IEEE and others: (In BOLD font we identify committees with open consultations requiring a response from US stakeholders before next month’s Hello World! colloquium)
IEC/TC 8, et al System aspects of electrical energy supply
We collaborate with the appropriate ANSI US TAG; or others elsewhere in academia. We have begun tracking ITU titles with special attention to ITU Radio Communication Sector.
main(){printf("hello, world\n");}
We have collaborations with Rijksuniversiteit Groningen, Sapienza – Università di Roma, Universität Zürich, Universität Potsdam, Université de Toulouse. Universidade Federal de Itajubá, University of Windsor, the University of Alberta, to name a few — most of whom collaborate with us on electrotechnology issues. Standards Michigan and its 50-state affiliates are (obviously) domiciled in the United States. However, and for most issues, we defer to the International Standards expertise at the American National Standards Institute
* A “Hello, World!” program generally is a computer program that outputs or displays the message “Hello, World!”. Such a program is very simple in most programming languages (such as Python and Javascript) and is often used to illustrate the basic syntax of a programming language. It is often the first program written by people learning to code. It can also be used as a sanity test to make sure that a computer language is correctly installed, and that the operator understands how to use it.
“A Girl Writing; The Pet Goldfinch” 1870 Henriette Browne
For nearly twenty years now, the American National Standards Institute Committee on Education administers a student paper competition intended to encourage understanding of the global standards system that also provides a solid prize — in the $1000 to $5000 range. The topic of the 2024 Student Paper Competition will be What Role Do or Could Standards Play in Safe and Effective Implementation of Artificial Intelligence Applications/Systems?
For the past six years Standards Michigan has hosted Saturday morning workshops to help students (and faculty) interested in entering the contest. We will soon post those dates on our CALENDER. We typically host them — three sessions ahead of the deadline — on Saturday mornings.
We provide links to previous paper winners and refer you to Lisa Rajchel: lrajchel@ansi.org for all other details.
Classic British comfort food. The origin of the recipe can be traced back to the United Kingdom in the mid-20th century. The dish’s name, “bangers,” comes from the habit of sausages bursting open (banging) while cooking due to their high water content, particularly during World War II when meat was scarce, and fillers were added to sausages.
The popularity of sausages and mashed potatoes as a meal likely dates back much further in British culinary history. Sausages have been a part of British cuisine for centuries, and mashed potatoes have been consumed in the UK since potatoes were introduced to Europe in the 16th century. It has long since become the go-to meal for college students seeking a satisfying, simple, and budget-friendly option during their academic years.
Ingredients:
Pork sausages (traditional British bangers)
Potatoes (such as Russet or Yukon Gold)
Butter
Milk or cream
Salt and pepper to taste
Onion gravy (optional, for serving)
Instructions:
Start by preparing the sausages. You can grill, pan-fry, or oven-bake them until they are cooked through and nicely browned.
While the sausages are cooking, peel and chop the potatoes into chunks. Place them in a pot of salted water and bring to a boil. Cook until the potatoes are tender and can easily be pierced with a fork.
Drain the potatoes and return them to the pot. Mash the potatoes using a potato masher or a potato ricer.
Add butter and a splash of milk or cream to the mashed potatoes, and continue mashing until you achieve your desired consistency. Season with salt and pepper to taste.
Serve the cooked sausages on top of the mashed potatoes, and if desired, pour onion gravy over the dish.
The History of “Bangers and Mash” as a College Meal:
Simplicity: The dish is easy to prepare, requiring basic cooking skills and readily available ingredients, making it ideal for students who may have limited cooking facilities or time.
Affordability: Sausages and potatoes are often budget-friendly ingredients, making “Bangers and Mash” a cost-effective meal for students on tight budgets.
Comfort and Nostalgia: The dish’s hearty and comforting nature brings a sense of nostalgia and home-cooked goodness to college students, especially those living away from home for the first time.
Social Meal: “Bangers and Mash” is a dish that can be shared with friends or hallmates, making it a popular choice for communal meals in college dormitories or shared kitchens.
Overall, “Bangers and Mash” has not only been a staple in British cuisine but also a go-to meal for college students seeking a satisfying, simple, and budget-friendly option during their academic years.
New update alert! The 2022 update to the Trademark Assignment Dataset is now available online. Find 1.29 million trademark assignments, involving 2.28 million unique trademark properties issued by the USPTO between March 1952 and January 2023: https://t.co/njrDAbSpwBpic.twitter.com/GkAXrHoQ9T