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Psalm 84
“Yea, the sparrow hath found an house, and the swallow a nest for herself,
where she may lay her young, even thine altars,
O Lord of hosts, my King, and my God.”
“Library Lawn and Chapel; Pembroke College” | James Hart Dyke b. 1966
Blessed are those whose strength is in you,
whose hearts are set on pilgrimage.
As they pass through the Valley of Baka,
they make it a place of springs;
the autumn rains also cover it with pools.
They go from strength to strength,
till each appears before God in Zion.
Hear my prayer, Lord God Almighty;
listen to me, God of Jacob.
Look on our shield, O God;
look with favor on your anointed one.
Better is one day in your courts
than a thousand elsewhere;
I would rather be a doorkeeper in the house of my God
than dwell in the tents of the wicked.
For the Lord God is a sun and shield;
the Lord bestows favor and honor;
no good thing does he withhold
from those whose walk is blameless.
Lord Almighty,
blessed is the one who trusts in you.
“We Plough the Fields, and Scatter”
The hymn is based on a German poem titled “Wir pflügen und wir streuen,” which was written by Matthias Claudius (1740-1815), a German poet and journalist. The poem first appeared in 1782 as part of a larger work, “Paul Erdmann’s Fest,” which was a fictional account of a harvest festival.
“All People That On Earth Do Dwell”
RE: Ralph Vaughn Williams interpretation:
- Harmonization of the Tune: “All People That on Earth Do Dwell” is set to the tune “Old Hundredth,” which is one of the most well-known hymn tunes and dates back to the 16th century. Vaughan Williams created a notable harmonization of this tune for the 1953 coronation of Queen Elizabeth II. His arrangement brought a fresh and majestic quality to the already beloved hymn, making it suitable for grand ceremonial occasions.
- Orchestration for the Coronation Service: Vaughan Williams not only harmonized the hymn but also orchestrated it for a full choir and orchestra for the coronation service. This orchestration enhanced the hymn’s grandeur and was used during the recessional at the end of the service, leaving a lasting impression on the attendees and listeners.
- Influence on Hymnody: Vaughan Williams’ work on “All People That on Earth Do Dwell” is part of his broader impact on hymnody. Through his contributions, including this specific harmonization and orchestration, he helped to elevate and modernize hymn singing within the Anglican tradition and beyond.
Aspirational Imagery
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Evensong “If Ye Love Me”
“Evensong” is a traditional Anglican church service that includes hymns, prayers, and readings from the Bible. In the British university choral tradition, “Evensong” refers to a choral service that is performed by a university choir in a church or chapel setting. The most widely performed “Evensongs” in the British university choral tradition are those performed by the choirs of Oxford and Cambridge universities.
Other universities in the UK, such as Durham, St. Andrews, and Edinburgh, also have strong choral traditions and perform regular “Evensongs.” These services often include music by composers such as Thomas Tallis, William Byrd, Henry Purcell, and other great composers of choral music from the Renaissance and Baroque eras.
“Evening Song”, Sir George Clausen (18 April 1852 – 22 November 1944), British pic.twitter.com/bxHNcTT3bD
— Orphic Inscendence (@OInscendence) March 19, 2023
“If ye love me” is a motet composed by the English Renaissance composer Thomas Tallis. It is a four-part choral work that is widely regarded as one of his most popular and enduring compositions. It was first published in 1565 in Archbishop Parker’s Psalter, which was the first musical work to be printed in England with music notation. “If ye love me” has since become a staple of choral repertoire and is often performed at weddings, funerals, and other occasions.
Quantum Information Science
Quantum information science is a field of study that combines the principles of quantum mechanics and information theory to develop new methods for processing, storing, and transmitting information. It aims to use the unique properties of quantum systems, such as superposition and entanglement, to create more powerful and secure computing and communication technologies than are possible with classical systems.
In quantum information science, information is represented using quantum bits, or qubits, which can exist in superposition states, allowing for simultaneous processing of multiple values. By entangling qubits, it is possible to perform operations on them collectively, leading to faster and more efficient computation.
The field of quantum information science was founded in the 1980s and 1990s by a number of researchers who realized that the principles of quantum mechanics could be used to develop new methods for processing, transmitting, and securing information. Some of the key figures who are credited with founding the field of quantum information science include:
- Paul Benioff: In 1981, Benioff proposed the concept of a quantum computer, which would use quantum mechanics to perform calculations faster than a classical computer.
- Richard Feynman: In 1982, Feynman gave a lecture in which he proposed the idea of using quantum systems to simulate the behavior of other quantum systems, which later became known as quantum simulation.
- David Deutsch: In 1985, Deutsch proposed the concept of a quantum algorithm, which would use quantum mechanics to perform certain calculations exponentially faster than a classical computer.
- Peter Shor: In 1994, Shor developed a quantum algorithm for factoring large numbers, which demonstrated the potential of quantum computers to break certain encryption schemes and sparked a renewed interest in quantum information science.
These and other researchers made significant contributions to the development of quantum information science, and the field has since grown to encompass a wide range of topics, including quantum cryptography, quantum communication, and quantum sensing, among others.
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/njrDAbSpwB pic.twitter.com/GkAXrHoQ9T
— USPTO (@uspto) July 13, 2023
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