Watch: KSG Explainer | First woman to represent India in ICAO #upsc #prelims #currentaffairs #explainer
https://www.youtube.com/watch?v=QGke1xaidgo
https://www.youtube.com/watch?v=QGke1xaidgo
YouTube
KSG Explainer | First woman to represent India in ICAO #upsc #prelims #currentaffairs #explainer
#upsc #currentaffairs #First woman to represent India in ICAO #iascoaching #ksgindia #explainer #currentaffairs #latestnews #dailycurrentaffairs #KSG #prelims #civilservicesexamination #iascoachingclasses #current_affairs
First woman to represent India…
First woman to represent India…
Watch: KSG Explainer | First global police metaverse #upsc #currentaffairs #explainer #prelims
https://www.youtube.com/watch?v=FOMu4VgQIbA
https://www.youtube.com/watch?v=FOMu4VgQIbA
YouTube
KSG Explainer | First global police metaverse #upsc #currentaffairs #explainer #prelims
#upsc #currentaffairs #First global police metaverse #iascoaching #ksgindia #explainer #currentaffairs #latestnews #dailycurrentaffairs #KSG #prelims #civilservicesexamination #iascoachingclasses #current_affairs
First global police metaverse
GS Paper…
First global police metaverse
GS Paper…
Watch: KSG Explainer | First amendment to Constitution challenged #upsc #currentaffairs #prelims #explainer
https://www.youtube.com/watch?v=aFcJEu8Eyx4
https://www.youtube.com/watch?v=aFcJEu8Eyx4
YouTube
KSG Explainer | First amendment to Constitution challenged #upsc #currentaffairs #prelims #explainer
#upsc #currentaffairs #First amendment to Constitution challenged #iascoaching #ksgindia #explainer #currentaffairs #latestnews #dailycurrentaffairs #KSG #prelims #civilservicesexamination #iascoachingclasses #current_affairs
First amendment to Constitution…
First amendment to Constitution…
The points can be used as ‘parking spots’ for spacecraft in space to remain in a fixed position with minimal fuel consumption.
They have been named after Italian-French mathematician Joseph-Louis Lagrange (1736-1813), who was the first one to find the positions. So, between the Earth and the Sun, a satellite can occupy any of five Lagrangian points. “Of the five Lagrange points, three are unstable and two are stable. The unstable Lagrange points – labelled L1, L2, and L3 – lie along the line connecting the two large masses. The stable Lagrange points – labelled L4 and L5 – form the apex of two equilateral triangles. The L4 and L5 are also called Trojan points and celestial bodies like asteroids are found here.
#upsc #news #headline #india #first #sun #observatory #launched #space #technology #ISRO #AdityaL1 #firstspace #mission #SatishDhawan #spacecentre #Sriharikota #softland #spacecraft #nearmoon #southpole #polar #satellite #launch #PSLV #workhouse #rocket #chandrayaan #Mangalyaan #boosters #synchronous #orbit #lowerearth #haloorbit #chromosphere #corona #plasma #spectrometer #trojan #point #asteroids
They have been named after Italian-French mathematician Joseph-Louis Lagrange (1736-1813), who was the first one to find the positions. So, between the Earth and the Sun, a satellite can occupy any of five Lagrangian points. “Of the five Lagrange points, three are unstable and two are stable. The unstable Lagrange points – labelled L1, L2, and L3 – lie along the line connecting the two large masses. The stable Lagrange points – labelled L4 and L5 – form the apex of two equilateral triangles. The L4 and L5 are also called Trojan points and celestial bodies like asteroids are found here.
#upsc #news #headline #india #first #sun #observatory #launched #space #technology #ISRO #AdityaL1 #firstspace #mission #SatishDhawan #spacecentre #Sriharikota #softland #spacecraft #nearmoon #southpole #polar #satellite #launch #PSLV #workhouse #rocket #chandrayaan #Mangalyaan #boosters #synchronous #orbit #lowerearth #haloorbit #chromosphere #corona #plasma #spectrometer #trojan #point #asteroids
Today's Headlines - 03 September 2023
Largest indigenously developed N-plant starts ops
GS Paper - 3 (Energy)
The third unit of the indigenously developed 700-megawatt electric (MWe) nuclear power reactor at the Kakrapar Atomic Power Project (KAPP3) in Gujarat has commenced operations at full capacity. This comes a little over three years since the unit achieved its ‘first criticality’ – a technical term that signifies the initiation of a controlled, but sustained nuclear fission reaction – in July 2020. On 30 June this year, the unit had started commercial operations.
More about the News
In India’s civilian nuclear programme, this is seen as a landmark event, given that KAPP-3 is the country’s first 700 MWe unit and the biggest indigenously developed variant of the Pressurised Heavy Water Reactor (PHWR).
The PHWRs, which use natural uranium as fuel and heavy water as moderator, constitute the mainstay of India’s nuclear power fleet.
Till now, the biggest reactor of indigenous design was the 540 MWe PHWR, two of which have been deployed in Tarapur, Maharashtra.
For India, the operationalisation of its first 700MWe reactor is a significant scale up in technology, both in terms of the optimisation of its PHWR design — the new 700MWe unit addresses the excess thermal margins and also marks an improvement in the economies-of-scale, without significant design changes to the 540 MWe reactor.
Flashback
As India works to ramp up its existing nuclear power capacity of 7,480 MWe to 22,480 MWe by 2031, the 700MWe capacity would constitute the biggest component of this expansion plan. Currently, nuclear power capacity constitutes around 2 per cent of the total installed capacity of 4,17,668 MW (May 31).
Significantly, as India’s civilian nuclear sector gears up to its next frontier — building a 900 MWe Pressurised Water Reactors (PWRs) of indigenous design – the experience of executing the larger 700MWe reactor design would come in handy, especially with respect to the improved capability of making large-size pressure vessels, alongside India’s own isotope enrichment plants being developed to supply a part of the required enriched uranium fuel to power these new generation reactors over the next decade or so, according to DAE officials.
The first ‘pour of concrete’ for laying the foundation of KAPP-3 happened in November 2010 and this unit was originally expected to be commissioned in 2015.
#upsc #news #headline #largest #indigenously #devloped #Nplant #energy #megawatt #kakrapar #atomic #powerproject #gujarat #firstcriticality #india #civilian #nuclear #programme #heavywater #PHWR #tarapur #capacity #pour #concrete #DAE #uranium #fuel #maharashtra #moderator #fission #first #initiation #thirdunit #electric #landmark #pressurised #thermal #margins #economies #november
Largest indigenously developed N-plant starts ops
GS Paper - 3 (Energy)
The third unit of the indigenously developed 700-megawatt electric (MWe) nuclear power reactor at the Kakrapar Atomic Power Project (KAPP3) in Gujarat has commenced operations at full capacity. This comes a little over three years since the unit achieved its ‘first criticality’ – a technical term that signifies the initiation of a controlled, but sustained nuclear fission reaction – in July 2020. On 30 June this year, the unit had started commercial operations.
More about the News
In India’s civilian nuclear programme, this is seen as a landmark event, given that KAPP-3 is the country’s first 700 MWe unit and the biggest indigenously developed variant of the Pressurised Heavy Water Reactor (PHWR).
The PHWRs, which use natural uranium as fuel and heavy water as moderator, constitute the mainstay of India’s nuclear power fleet.
Till now, the biggest reactor of indigenous design was the 540 MWe PHWR, two of which have been deployed in Tarapur, Maharashtra.
For India, the operationalisation of its first 700MWe reactor is a significant scale up in technology, both in terms of the optimisation of its PHWR design — the new 700MWe unit addresses the excess thermal margins and also marks an improvement in the economies-of-scale, without significant design changes to the 540 MWe reactor.
Flashback
As India works to ramp up its existing nuclear power capacity of 7,480 MWe to 22,480 MWe by 2031, the 700MWe capacity would constitute the biggest component of this expansion plan. Currently, nuclear power capacity constitutes around 2 per cent of the total installed capacity of 4,17,668 MW (May 31).
Significantly, as India’s civilian nuclear sector gears up to its next frontier — building a 900 MWe Pressurised Water Reactors (PWRs) of indigenous design – the experience of executing the larger 700MWe reactor design would come in handy, especially with respect to the improved capability of making large-size pressure vessels, alongside India’s own isotope enrichment plants being developed to supply a part of the required enriched uranium fuel to power these new generation reactors over the next decade or so, according to DAE officials.
The first ‘pour of concrete’ for laying the foundation of KAPP-3 happened in November 2010 and this unit was originally expected to be commissioned in 2015.
#upsc #news #headline #largest #indigenously #devloped #Nplant #energy #megawatt #kakrapar #atomic #powerproject #gujarat #firstcriticality #india #civilian #nuclear #programme #heavywater #PHWR #tarapur #capacity #pour #concrete #DAE #uranium #fuel #maharashtra #moderator #fission #first #initiation #thirdunit #electric #landmark #pressurised #thermal #margins #economies #november