{"slip": { "id": 9, "advice": "True happiness always resides in the quest."}}
{"type":"standard","title":"Typhoon Mitag (2002)","displaytitle":"Typhoon Mitag (2002)","namespace":{"id":0,"text":""},"wikibase_item":"Q7861265","titles":{"canonical":"Typhoon_Mitag_(2002)","normalized":"Typhoon Mitag (2002)","display":"Typhoon Mitag (2002)"},"pageid":36415845,"thumbnail":{"source":"https://upload.wikimedia.org/wikipedia/commons/thumb/4/48/Mitag_2002-03-05_1400Z.jpg/330px-Mitag_2002-03-05_1400Z.jpg","width":320,"height":379},"originalimage":{"source":"https://upload.wikimedia.org/wikipedia/commons/4/48/Mitag_2002-03-05_1400Z.jpg","width":3492,"height":4137},"lang":"en","dir":"ltr","revision":"1286138758","tid":"61c23cf1-1be7-11f0-bf57-989b75edaac5","timestamp":"2025-04-17T23:55:04Z","description":"Pacific typhoon in 2002","description_source":"local","content_urls":{"desktop":{"page":"https://en.wikipedia.org/wiki/Typhoon_Mitag_(2002)","revisions":"https://en.wikipedia.org/wiki/Typhoon_Mitag_(2002)?action=history","edit":"https://en.wikipedia.org/wiki/Typhoon_Mitag_(2002)?action=edit","talk":"https://en.wikipedia.org/wiki/Talk:Typhoon_Mitag_(2002)"},"mobile":{"page":"https://en.m.wikipedia.org/wiki/Typhoon_Mitag_(2002)","revisions":"https://en.m.wikipedia.org/wiki/Special:History/Typhoon_Mitag_(2002)","edit":"https://en.m.wikipedia.org/wiki/Typhoon_Mitag_(2002)?action=edit","talk":"https://en.m.wikipedia.org/wiki/Talk:Typhoon_Mitag_(2002)"}},"extract":"Typhoon Mitag, known in the Philippines as Super Typhoon Basyang, was the first super typhoon on record in the month of March. The second storm of the 2002 Pacific typhoon season, Mitag developed from a trough near the equator on February 25 near the Federated States of Micronesia (FSM). It moved westward through the archipelago and intensified into a typhoon before passing near Yap on March 2. High winds and heavy rainfall affected the state, resulting in an islandwide power outage and destroying hundreds of houses. Mitag caused severe crop damage that resulted in food shortages. The rainfall and storm surge flooded much of the coastline as well as Yap's capital, Colonia. Damage totaled $150 million, mostly from crop damage. There was one death related to the storm's aftermath.","extract_html":"
Typhoon Mitag, known in the Philippines as Super Typhoon Basyang, was the first super typhoon on record in the month of March. The second storm of the 2002 Pacific typhoon season, Mitag developed from a trough near the equator on February 25 near the Federated States of Micronesia (FSM). It moved westward through the archipelago and intensified into a typhoon before passing near Yap on March 2. High winds and heavy rainfall affected the state, resulting in an islandwide power outage and destroying hundreds of houses. Mitag caused severe crop damage that resulted in food shortages. The rainfall and storm surge flooded much of the coastline as well as Yap's capital, Colonia. Damage totaled $150 million, mostly from crop damage. There was one death related to the storm's aftermath.
"}{"fact":"Not every cat gets \\high\\\" from catnip. Whether or not a cat responds to it depends upon a recessive gene: no gene\"","length":115}
{"type":"standard","title":"Ernie Irvan","displaytitle":"Ernie Irvan","namespace":{"id":0,"text":""},"wikibase_item":"Q1854523","titles":{"canonical":"Ernie_Irvan","normalized":"Ernie Irvan","display":"Ernie Irvan"},"pageid":1256150,"thumbnail":{"source":"https://upload.wikimedia.org/wikipedia/commons/thumb/2/2b/ErnieIrvan1997.jpg/330px-ErnieIrvan1997.jpg","width":320,"height":494},"originalimage":{"source":"https://upload.wikimedia.org/wikipedia/commons/2/2b/ErnieIrvan1997.jpg","width":1841,"height":2840},"lang":"en","dir":"ltr","revision":"1270172321","tid":"dd700795-d56e-11ef-bdff-5ad6438931e0","timestamp":"2025-01-18T07:36:01Z","description":"American racing driver (born 1959)","description_source":"local","content_urls":{"desktop":{"page":"https://en.wikipedia.org/wiki/Ernie_Irvan","revisions":"https://en.wikipedia.org/wiki/Ernie_Irvan?action=history","edit":"https://en.wikipedia.org/wiki/Ernie_Irvan?action=edit","talk":"https://en.wikipedia.org/wiki/Talk:Ernie_Irvan"},"mobile":{"page":"https://en.m.wikipedia.org/wiki/Ernie_Irvan","revisions":"https://en.m.wikipedia.org/wiki/Special:History/Ernie_Irvan","edit":"https://en.m.wikipedia.org/wiki/Ernie_Irvan?action=edit","talk":"https://en.m.wikipedia.org/wiki/Talk:Ernie_Irvan"}},"extract":"Virgil Earnest Irvan, occasionally referred to as Swervin' Irvan, is an American former professional stock car racing driver. A retired NASCAR competitor, he is perhaps best remembered for his comeback after a serious head injury suffered from a crash during practice at Michigan International Speedway in 1994 that left him with only a 10% chance of survival. Irvan has been inducted into numerous halls of fame and was named one of NASCAR's 50 Greatest Drivers in 1998. After a series of injuries in the late 1990s, he retired from racing in 1999.","extract_html":"
Virgil Earnest Irvan, occasionally referred to as Swervin' Irvan, is an American former professional stock car racing driver. A retired NASCAR competitor, he is perhaps best remembered for his comeback after a serious head injury suffered from a crash during practice at Michigan International Speedway in 1994 that left him with only a 10% chance of survival. Irvan has been inducted into numerous halls of fame and was named one of NASCAR's 50 Greatest Drivers in 1998. After a series of injuries in the late 1990s, he retired from racing in 1999.
"}{"type":"standard","title":"Annihilation radiation","displaytitle":"Annihilation radiation","namespace":{"id":0,"text":""},"wikibase_item":"Q4769488","titles":{"canonical":"Annihilation_radiation","normalized":"Annihilation radiation","display":"Annihilation radiation"},"pageid":9913028,"thumbnail":{"source":"https://upload.wikimedia.org/wikipedia/commons/7/78/Annihilation_Radiation.JPG","width":282,"height":148},"originalimage":{"source":"https://upload.wikimedia.org/wikipedia/commons/7/78/Annihilation_Radiation.JPG","width":282,"height":148},"lang":"en","dir":"ltr","revision":"1285608306","tid":"d63481be-195a-11f0-8e65-b46ea262b79c","timestamp":"2025-04-14T18:03:58Z","description":"Radiation resulting from particle-antiparticle collisions","description_source":"local","content_urls":{"desktop":{"page":"https://en.wikipedia.org/wiki/Annihilation_radiation","revisions":"https://en.wikipedia.org/wiki/Annihilation_radiation?action=history","edit":"https://en.wikipedia.org/wiki/Annihilation_radiation?action=edit","talk":"https://en.wikipedia.org/wiki/Talk:Annihilation_radiation"},"mobile":{"page":"https://en.m.wikipedia.org/wiki/Annihilation_radiation","revisions":"https://en.m.wikipedia.org/wiki/Special:History/Annihilation_radiation","edit":"https://en.m.wikipedia.org/wiki/Annihilation_radiation?action=edit","talk":"https://en.m.wikipedia.org/wiki/Talk:Annihilation_radiation"}},"extract":"Annihilation radiation is a term used in Gamma spectroscopy for the photon radiation produced when a particle and its antiparticle collide and annihilate. Most commonly, this refers to 511-keV photons produced by an electron interacting with a positron. These photons are frequently referred to as gamma rays, despite having their origin outside the nucleus, due to unclear distinctions between types of photon radiation. The positively-charged antiparticle of the electron is emitted from the nucleus as it undergoes β+ decay. The positron travels a short distance, depositing any excess energy before it combines with a free electron. The mass of the e- and e+ is completely converted into two photons with an energy of 511 keV each. These annihilation photons are emitted in opposite directions, 180˚ apart. This is the basis for PET scanners in a process called coincidence counting.","extract_html":"
Annihilation radiation is a term used in Gamma spectroscopy for the photon radiation produced when a particle and its antiparticle collide and annihilate. Most commonly, this refers to 511-keV photons produced by an electron interacting with a positron. These photons are frequently referred to as gamma rays, despite having their origin outside the nucleus, due to unclear distinctions between types of photon radiation. The positively-charged antiparticle of the electron is emitted from the nucleus as it undergoes β+ decay. The positron travels a short distance, depositing any excess energy before it combines with a free electron. The mass of the e- and e+ is completely converted