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Animated path. A total solar eclipse will occur at the Moon's descending node of orbit on Saturday, 22 July 2028, [1] with a magnitude of 1.056. A solar eclipse occurs when the Moon passes between Earth and the Sun, thereby totally or partly obscuring the image of the Sun for a viewer on Earth.
New South Wales: 4 December 2002: 22 July 2028: 14 January 1945: 14 October 2042: 20 April 2023: 21 September 2025 Northern Territory: 13 November 2012: 22 July 2028: 10 May 2013: 14 October 2042: 20 April 2023: 22 July 2028 Queensland: 13 November 2012: 22 July 2028: 10 May 2013: 14 October 2042: 20 April 2023: 22 July 2028 South Australia: 4 ...
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The number of the saros series that the eclipse belongs to is given, followed by the type of the eclipse (either total, annular, partial or hybrid), the gamma of the eclipse (how centrally the shadow of the Moon strikes the Earth), and the magnitude of the eclipse (the fraction of the Sun's diameter obscured by the Moon). For total and annular ...
Eclipse path of totality cuts across 13 U.S. states Mexico's Pacific coast will be the first location in continental North America to experience totality, which will occur about 11:07 a.m. PDT ...
An annular eclipse appears as a partial eclipse over a region of the Earth thousands of kilometres wide. Occurring about 2 days before apogee (on January 28, 2028, at 15:30 UTC), the Moon's apparent diameter will be smaller. [2] The path of annularity will pass through Ecuador, Peru, northern Brazil, and French Guiana.
New Zealand and New Caledonia represent the visible part of a portion of continental crust, usually referred to as Zealandia.The rest of Zealandia includes the Challenger Plateau and Lord Howe Rise, which stretch from Northwest of New Zealand almost to Northern Australia, and the Campbell Plateau and Chatham Rise, to the southeast of New Zealand.
Most of the stress state in continental Australia is controlled by compression originating from the three main collision boundaries located in New Zealand, Indonesia and New Guinea, and the Himalaya (transmitted through the Indian and Capricorn plates). South of latitude −30°, the stress trajectories are oriented east–west to northwest ...