Albert Einstein was born in Germany in 1879. He showed an early aptitude for mathematics and taught himself advanced calculus by age 14. In 1905, as a patent clerk in Bern, Switzerland, Einstein published three groundbreaking papers. One proposed the special theory of relativity and another introduced the famous equation E=mc2 relating energy and mass. Einstein later developed the general theory of relativity and won the Nobel Prize for his explanation of the photoelectric effect. He immigrated to the United States in 1933 to escape Nazi persecution in Germany and later became an American citizen. Einstein died in 1955 at the age of 76 in Princeton, New Jersey.
This document discusses current and potential new metrics for evaluating daylighting in buildings. It begins by looking at the daylight factor approach and its components. It then explores the potential of volumetric lighting metrics like cylindrical and cubic illuminance. Challenges are discussed, such as how metrics break down in open-plan spaces. A new metric, mean room surface exitance, is proposed and its benefits explained. A pilot study on this and other metrics using a real building is described. The conclusion covers difficulties validating new metrics and need for more case studies.
This document discusses the basic principles of passive design, including passive heating, cooling, and daylighting. It explains that passive design uses climate considerations, building orientation, shape, materials, and natural ventilation/solar energy to control indoor comfort without consuming fuels. The key principles covered include solar geometry, passive heating strategies like direct gain and thermal storage, passive cooling strategies like ventilation and shading, and daylighting. It emphasizes that passive buildings require active users to effectively manage windows, shades, and interior environments.
A joint presentation between myself and John Andary from Stantec. Covers the the process and strategies used to get this 218,000 SF office building on the NREL campus to net zero energy.
Albert Einstein was born in Germany in 1879 and died in 1955 at the age of 76. He attended several schools in Germany and Switzerland and received his PhD from the University of Zurich. Einstein is most famous for his theory of relativity and mass-energy equivalence formula E=mc2. He discovered that light has both wave-like and particle-like properties. Einstein received the Nobel Prize in Physics in 1921 and many other awards for his revolutionary scientific work and theories. His theories led to many modern technological innovations and he is considered one of the most influential scientists of all time.
Albert Einstein was born in 1879 in Germany to a middle-class Jewish family. As a child, he was fascinated by invisible forces after encountering a compass at age 5. He mastered higher mathematics by age 16. He studied at the Higher Technical School in Zurich, graduating in 1900. After graduation, Einstein worked in a patent office in Bern, Switzerland. In 1905, he published four groundbreaking papers, one establishing the photoelectric effect and the famous equation E=mc2. Einstein is renowned for his theories of special and general relativity. He won the Nobel Prize in Physics in 1921 for his services to theoretical physics and especially for his discovery of the law of the photoelectric effect.
Albert Einstein was born in Germany in 1879. He showed an early aptitude for mathematics and taught himself advanced calculus by age 14. In 1905, as a patent clerk in Bern, Switzerland, Einstein published three groundbreaking papers. One proposed the special theory of relativity and another introduced the famous equation E=mc2 relating energy and mass. Einstein later developed the general theory of relativity and won the Nobel Prize for his explanation of the photoelectric effect. He immigrated to the United States in 1933 to escape Nazi persecution in Germany and later became an American citizen. Einstein died in 1955 at the age of 76 in Princeton, New Jersey.
This document discusses current and potential new metrics for evaluating daylighting in buildings. It begins by looking at the daylight factor approach and its components. It then explores the potential of volumetric lighting metrics like cylindrical and cubic illuminance. Challenges are discussed, such as how metrics break down in open-plan spaces. A new metric, mean room surface exitance, is proposed and its benefits explained. A pilot study on this and other metrics using a real building is described. The conclusion covers difficulties validating new metrics and need for more case studies.
This document discusses the basic principles of passive design, including passive heating, cooling, and daylighting. It explains that passive design uses climate considerations, building orientation, shape, materials, and natural ventilation/solar energy to control indoor comfort without consuming fuels. The key principles covered include solar geometry, passive heating strategies like direct gain and thermal storage, passive cooling strategies like ventilation and shading, and daylighting. It emphasizes that passive buildings require active users to effectively manage windows, shades, and interior environments.
A joint presentation between myself and John Andary from Stantec. Covers the the process and strategies used to get this 218,000 SF office building on the NREL campus to net zero energy.
Albert Einstein was born in Germany in 1879 and died in 1955 at the age of 76. He attended several schools in Germany and Switzerland and received his PhD from the University of Zurich. Einstein is most famous for his theory of relativity and mass-energy equivalence formula E=mc2. He discovered that light has both wave-like and particle-like properties. Einstein received the Nobel Prize in Physics in 1921 and many other awards for his revolutionary scientific work and theories. His theories led to many modern technological innovations and he is considered one of the most influential scientists of all time.
Albert Einstein was born in 1879 in Germany to a middle-class Jewish family. As a child, he was fascinated by invisible forces after encountering a compass at age 5. He mastered higher mathematics by age 16. He studied at the Higher Technical School in Zurich, graduating in 1900. After graduation, Einstein worked in a patent office in Bern, Switzerland. In 1905, he published four groundbreaking papers, one establishing the photoelectric effect and the famous equation E=mc2. Einstein is renowned for his theories of special and general relativity. He won the Nobel Prize in Physics in 1921 for his services to theoretical physics and especially for his discovery of the law of the photoelectric effect.
Budapest is the capital city of Hungary with a population of approximately 1.8 million people. Some key points about Budapest include:
- It has 23 districts separated by the Danube River, which is crossed by 11 bridges connecting the districts of Buda and Pest.
- Heroes' Square is located at the end of Andrassy Avenue and contains numerous statues honoring Hungarian kings and leaders.
- The City Park was built for Millennial Celebrations and contains attractions such as museums, a zoo, and an ice rink within its 100 hectare area.
- The Buda Castle District is located on Castle Hill and contains the historic Matthias Church and the ruins of the original B
Soil is the top layer of land and is important for agriculture. Soil pollution has many causes from human activities like industry and agriculture as well as natural processes. Main results of soil pollution include acidification, desertification, damage to soils and reduced fertility. This impacts agriculture, water, and biodiversity. Deforestation is a key contributor to soil erosion due to removal of vegetation and changes to water and carbon cycles. To protect soil, techniques like conservative plowing, afforestation, water management, and conscious waste handling can be used.
Budapest is the capital city of Hungary with a population of approximately 1.8 million people. Some key points about Budapest include:
- It has 23 districts separated by the Danube River, which is crossed by 11 bridges connecting the districts of Buda and Pest.
- Heroes' Square is located at the end of Andrassy Avenue and contains numerous statues honoring Hungarian kings and leaders.
- The City Park was built for Millennial Celebrations and contains attractions such as museums, a zoo, and an ice rink within its 100 hectare area.
- The Buda Castle District is located on Castle Hill and contains the historic Matthias Church and the ruins of the original B
Soil is the top layer of land and is important for agriculture. Soil pollution has many causes from human activities like industry and agriculture as well as natural processes. Main results of soil pollution include acidification, desertification, damage to soils and reduced fertility. This impacts agriculture, water, and biodiversity. Deforestation is a key contributor to soil erosion due to removal of vegetation and changes to water and carbon cycles. To protect soil, techniques like conservative plowing, afforestation, water management, and conscious waste handling can be used.
2. A Nap energiája
• hő és fény formájában
• sugárzással éri el a Földet
• ősidők óta hasznosítjuk
egyre fejlettebb technológiák
• naperőművekben átalakítják elektromos árammá
• kapcsolódó technológiák
napfűtés
fotovoltaikus berendezések
naperőművek
napenergiát felhasználó épületek
• hasznosításának két módja:
1. passzív
2. aktív
3. • Passzív
• épület tájolása, felhasznált építőanyagok
• üvegházhatást használjuk ki
• épület, amely képes használni a Nap sugárzását mint energiaforrást
• főként az átmeneti időszakokban
• Aktív
• két módja
1. napenergiát hőenergiává alakítjuk
• gyűjtése, tárolása napkollektorokkal
• Magyarország, Miskolc 2007 augusztus: először telepítenek napkollektort panelházra
2. fotovoltaikus eszköz => napelem
• a napsugárzás energiáját elektromos energiává alakítja
• 2025: napenergia jelenti a Föld fő energiaforrását
4. Napelemek működése
• a Napból érkező fényt átalakítja elektromos árammá
• legfontosabb része a napelem
félvezető (általában kristályos szilícium) => képes villamos energiát biztosítani fény
hatására
keletkező elektronok vezetékeken keresztül jutnak el az elektronikus
átalakítóhoz = inverter
feladata=>napelemből érkező egyenáramot váltóárammá alakítja
• fotovoltaikus cellák, melyek fotovoltaikus jelenségen alapulva
működnek
Fotovoltaikus jelenség: fény hatására az elektronok a vegyértéksávból a vezetési sávba gerjesztődnek,
azaz alapállapotból magasabb energiájú szintre kerülnek, és az atommagoktól kissé „szabadulva”
szabadon áramolhatnak
5.
6. Margitszigeti zenélő szökőkút
• 2002-ben felújították
• homokszűrős és vegyszeradagolós szűrőrendszert és számítógép-vezérlést kapott
• ez szinkronizálja a víz játékát
• 136 fényszóróból álló díszvilágítását és zenéjét
• 65 fúvóka és 11 nagy teljesítményű szivattyú működeti
• vízforgató teljesítménye több mint ezer köbméter óránként
• vízrendszere 4 vízképből áll
• központi fúvóka 25 m magasra
• ezt övező 4 fúvóka 18 m
• kuglóf alakú vízkép 24 db 10 m-es vízoszlopnak köszönhető
• belső térből külsőbe 36 db fúvóka 4 m-es íveket lövell ki
7.
8.
9. Margitszigeti zenélő szökőkút II.
• 1962-ben adták át
• Magyarország legnagyobb zenélő kútja
• május 1-től október 31-ig
• 2013: 50 éves a szökőkút => most 55 éves
• este magyar történelmi személyiségek és hírességek fotói láthatóak
Liszt Ferenc
Kodály Zoltán
Illés együttes
Széchenyi István
II. Rákóczi Ferenc
Bárczy István
Mindszenty József
József Attila
Arany János
Jókai Anna
Rejtő Jenő
Puskás Ferenc
Egerszegi
Krisztina
Polgár Judit
Darnyi Tamás
Hosszú Katinka
Albert Flórián
Gábor Dénes
Rubik Ernő
Semmelweis Ignác
Jedlik Ányos
Szent-Györgyi Albert
Tolnay Klári
Latinovits
Zoltán
Törőcsik Mari
Ruttkai Éva
Jászai Mari
12. Néhány dal a 2017-es repertoárból
• Wolf Kati: Vuk dala
• Halász Judit: A cinege cipellője
• Faluvégi Fanni: Vaiana – Ahogy csillan a távoli fény
• 100 Folk Celsius: Miki manó
• Füredi Nikolett: Jégvarázs – Legyen hó
• Koncz Zsuzsa: Micimackó
• Napoleon Boulvard: Legyetek jók ha tudtok
• Shakira: Zootropolis – Try Everything
• Mozart: Kis éji zene
• Verdi: Trubadur – Katonakórus
• Liszt Ferenc: Magyar Rapszódia No.2.
• Dire Straits: Money for Nothing
• Bizet: Carmen – Habanera
• Chuck Berry: You Never Can Tell
• Weiner Leó: Rókatánc
• Guns N’ Roses: Sweet Child O’ Mine
• Steppenwolf: Born to Be Wild
• Csajkovszkij: Hattyúk tava
• Ed Sheeran: Shape of You
• Justin Timberlake: Can’t Stop the Feeling
• Mozart: Kis éji zene
• Mungo Jerry: In the Summertime
• Vivaldi: Négy Évszak – Tavasz
• Illés: Ne gondold
• The Rolling Stones: 19th Nervous Breakdown