Week 8 - Theory - EQ in our studios

In our studios, we have access to a variety of equalizing equipment.

SSL XR425 EQ - Found in studio 2

This EQ features two adjustable bandwidth controls, and has the option to change the EQ shape between a 'bell' and a 'peak'. It also features the option to mimic two different types of original circuity, the "Brown-02" and the "Black-242", with a button to switch inbetween.

Neve 1073LBEQ - Found in studio 2

This EQ is based on the original 1073 pre-amps, which used an inductor-based EQ. This process worked by wrapping wires around a coil, which produced musical harmonics when the coils saturated. As a result of this, this component can add to the sound even without boosting or applying any particular frequencies.

Neve Genesys - Digitally controlled analogue EQs

In studio 1, the console itself features 2 types of analogue EQ, which can be digitally controlled with the screen - this moves servos in the desk itself to change the compression.

4-band 884

3-band 1084

This EQ typically has a more modern sound than the 884.

References:

https://soundgas.com/product/ssl-xr425-e-series-eq-module/

https://www.ams-neve.com/outboard/1073-range/1073lbeq-mono-eq-module/

IBM Quantum Information Science and Fermilab’s SQMS Centre

Fermilab SQMS

IBM Plans to Advance Critical Quantum Information Science Initiatives in Collaboration with Fermilab’s SQMS Centre.

In order to extend quantum workforce development programmes and significantly advance crucial technologies and applications of superconducting quantum systems, IBM intends to join Fermilab’s SQMS Centre.

SQMS Meaning

The U.S. Department of Energy Office of Science, Science Programmes, has authorized IBM’s entry as a new partner in the Superconducting Quantum Materials and Systems Centre, a DOE National Quantum Information Science Research Centre, hosted by Fermilab. SQMS Centre is committed to developing key quantum technologies, with a focus on superconducting quantum systems, as a prominent national and worldwide research centre.

IBM is pioneering superconducting quantum computing. These two organizations hope to tackle major challenges in quantum computing, communication, and superconducting quantum platform use by working together.

Huge cryogenics

IBM and SQMS plan to collaborate on the development of technologies that are essential for the large-scale data centre scaling up of quantum computing. At Fermilab, SQMS is already putting forth innovative ideas for larger-scale, more efficient milli-Kelvin cryogenics. The largest dilution refrigerator in the world, dubbed “Colossus,” will house 3D superconducting radiofrequency (SRF)-based quantum computing and sensor devices.

IBM is going to supply useful data and guidelines to increase the reach of Colossus. Creating a large-scale cooling system based on LHe/N2 plants is one aspect of this, as it would be appropriate for IBM’s upcoming large-scale commercial quantum computing systems.

Superior and abundant quantum interconnects

High-density, high-quality quantum interconnects are being designed and prototyped by SQMS using 3D SRF platforms for quantum computing systems under development at Fermilab. These advancements can also be applied to the expansion of modular systems based on chips. With an emphasis on premium microwave cables, Fermilab and IBM want to investigate the viability and use of quantum links as a component of a commercial quantum system.

Noise reduction in processors and qubits

IBM and SQMS partners plan to collaborate as part of the SQMS Centre to advance scientific knowledge of the factors restricting the performance of superconducting qubits and to create workable solutions for “1/f flux noise” reduction.

SQMS Internship

Creation of quantum computing systems for scientific purposes

The research of physics-based applications of quantum computing systems is going to be furthered by IBM and SQMS partners. For instance, in condensed matter physics, scientists want to investigate how IBM’s utility-scale processors can facilitate a simulation of quantum many-body dynamics with a complexity that gets close to a quantum advantage regime. Partners will investigate lattice quantum field theory simulations for high-energy physics.

Programmes for quantum workforce development

SQMS Centre launched numerous successful workforce development programmes, such as the U.S. Quantum Information Science School, which is shared with the other four National Quantum Information Science Research Centres (NQISRC) sponsored by DOE, in order to recruit and train the future generation of a diverse quantum workforce. With its extensive quantum education programme, IBM has made quantum education possible for millions of students worldwide.

SQMS Quality

By giving Fortune 500 firms, colleges, labs, and startups within the IBM Quantum Network the resources they need to develop their quantum workforce, the programme has also contributed to the provision of industry and domain expertise. IBM and SQMS intend to collaborate in order to enhance national quantum workforce development initiatives.

“IBM need to solve and scale complex challenges, like efficient, large-scale refrigeration and high-density and low-loss quantum interconnects, and advance their understanding of noise sources and how to reduce them,” stated Jay Gambetta, IBM Fellow and Vice President, IBM Quantum. “They are accelerating towards building a large-scale, fault-tolerant quantum computer.”

The intended involvement in the research of the SQMS Centre is a cornerstone in advancing our strategy for large-scale quantum computing. Together with pushing the boundaries of quantum hardware, IBM and Fermilab hope to advance scientific uses of quantum computing and develop a workforce prepared for the future of quantum computing.

A legal agreement between IBM and Fermi Research Alliance, LLC must be approved before the collaboration can commence.

SQMS Standards

One of the five National Quantum Information Science Research Centres of the U.S. Department of Energy is Superconducting Quantum Materials and Systems(SQMS) Centre. Fermi National Accelerator Laboratory leads SQMS, a coalition of over thirty national labs, colleges, and corporations. It aims to revolutionize quantum information science.

Utilising cutting-edge qubits and superconducting technology, the centre designs multiqubit quantum processor platforms by drawing on Fermilab’s experience in creating intricate particle accelerators. SQMS Centre will construct new quantum sensors and a quantum computer at Fermilab in close collaboration with embedded industry partners, creating previously unheard-of computing possibilities.

SQMS Centre

A National Quantum Information Science Research Centre of the Department of Energy

In the direction of the quantum future

As part of a nationwide effort to create and implement the most potent quantum computers and sensors on the planet, the U.S. Department of Energy funds five research centres, including the Fermi National Accelerator Laboratory-led (Superconducting Quantum Materials and Systems) SQMS Centre.

In a mission-driven, multidisciplinary collaboration, SQMS brings together over 500 experts from 34 partner institutions, national laboratories, academia, and industry. This collaboration integrates deep expertise in a variety of fields, including quantum information science, material science, computational science, particle and condensed matter physics, cryogenics, microwave devices and controls engineering, industry applications, and more.

SQMS Quantum Undergraduate Internship

Superfine-Q SRF caverns

With its world-record quality-factor superconducting radio-frequency cavities, the SQMS Centre is investigating the use of these structures as building blocks for quantum computing platforms, which have the potential to scale and increase performance tenfold over the most advanced commercial platforms now available. They are also investigating quantum transducers and memories based on SRF.Image Credit To IBM

Superconducting processors and qubits

SQMS’s goal is to significantly increase these devices’ performance. Collaborating closely with prominent figures in the quantum sector, we have established a nationwide task force focused on nanofabrication, utilising multiple research and production foundries. Their newly designed fabrication procedures have yielded consistent performance enhancements.

Comprehending quantum decoherence

SQMS researchers examine dissected cavities and qubits with different performance levels using a wide range of specialized material characterization techniques. By using these methods, researchers can improve the functionality of quantum devices by learning more about the atomic and nanoscale processes that restrict quantum coherence.

Benchmarking, simulations, and algorithms

Scholars are customizing algorithms to effectively handle data from the SQMS SRF QPUs, investigating the application of commercial quantum platforms, and comparing the computational capacities of various hardware. Applications include finance and MRI, as well as simulations of fundamental physics for high-energy and condensed-matter physics.

Fundamental physics through quantum sensing

Image Credit To IBM

The SQMS Centre‘s high-coherence gadgets, with their extreme sensitivity, open up new platforms that stretch into uncharted regimes. The main areas of research are tests of quantum mechanics, dark matter candidates, gravitational waves, particles beyond the Standard Model, measurements of fundamental properties at the precision frontier, and assessments of the benefits of quantum sensing systems in these experiments.

The quantum ecosystem

The next generation of researchers will be trained and educated by SQMS, which is building a community and a space to further the area of quantum information science. This is achieved by creating possibilities and utilising alliances across the diverse SQMS network in the Chicago region, Illinois as a whole, and beyond. The SQMS Centre wants everyone to have access to quantum information science.

Increasing milli-kelvin cryogenics’ scale

SQMS Centre is utilising Fermilab’s unique resources and cryogenics expertise to construct the largest and highest cooling power dilution refrigerator in the world. Additionally, engineers are creating vital technologies that will enable the scalability of future massive quantum computing data centres.

Read more on govindhtech.com

hcs for the gangsey? just any hcs you happen to have about them?

ooh or hcs/theories about ronan and kavinsky’s relationship? (doesn’t have to be romantic)

UMMM ok. i have some controversial opinions about the kavinsky situation. if you want to read controversial dark shit and why i do not like kavinsky and do not think he deserved a redemption arc continue below. if you like kavinsky and want to keep liking him then ignore this lol

(also my gangsey hcs are here :))

*tw: SA*

so i've discussed with other people who've read the books and they didn't read the dream thieves the same way i did, at least not the first time. (my best friend reread after i told her how i'd read it and she agreed with me then, but she totally didn't see it the first time.) i read the whole outing with kavinsky as sexual assault. here's why:

while he's in dc, gansey receives a picture of like "a certain part of ronan's anatomy" or something that's implied (implied) to be a dick pic. i don't have the text with me so i can't quote it exactly but. it's very much implied to be a dick pic. this being said, maggie often says things in vague terms and sometimes doesn't mean for something to be interpreted in one specific way. she might have left that open to interpretation on purpose. however, she often uses euphemisms for certain unsavory things, like in TRB when she left the "F" in SRF (gansey's nickname from random guy which ronan called him teasingly for a period of time afterward, y'all remember that? anyway) unspecified. it could have been "fuck", or it could've been a slur. we really don't know, so it depends on how you read that situation and ronan's character. so yeah. the dick pic thing is open for interpretation, but the fact that she left the body part unspecified implies that it was at least something private. it seems that any way you look at it, ronan was violated.

because we know ronan was not sober, maybe not even conscious, when that photo was taken/sent. he was drugged and drunk and often wasn't conscious during that time with k. so it's easily assumed that ronan was not in his right mind and either was coerced to take his clothes off, or his clothes were taken off of him. and then pictures were taken of him without his full consent.

other than the more literal implications, that whole period has a sexual vibe; we know that k desired ronan in that way. we also know that ronan was desperate for k's help. the nature of this dynamic is obvious. k had the perfect opportunity to take advantage of ronan, and based on his other actions, it's pretty likely that he did in one way or another.

now, we don't see ronan confront any experience like this after he leaves k. this is because if something did happen, he probably doesn't remember it, again either because he was inebriated or unconscious. he does, however, have these repressed feelings that he feels taken advantage of, like he has to get out from under k's thumb asap. also, the way that maggie is, i wouldn't expect her to handle sa delicately. i wouldn't be surprised if she had intended for the situation to be read as SA and then purposefully glossed over it. rip maggie but i don't put that much faith in her, especially her in 2013. i think from that perspective, she was probably writing "horny repressed teenage boys with a dark twist" and not really considering the kind of trauma that really is for anyone, especially a teenager. especially for TEENAGERS to be READING. ugh. sorry i just really think that shouldn't have been implied and then brushed over. i think that was really shitty of maggie.

anyway. you can interpret it different ways, but because i interpreted it the very first time as SA, i Do Not Like kavinsky. at all. i don't think that the "he's got a shitty home life and he's repressed" factor balances out SA or any of the other shit he did, ranging from kidnapping to premeditated murder. sure he could've gotten better, but would he have? that’s my reservation with the redemption argument.

aside from that, i DEFINITELY want kavinsky as far away from ronan as possible. firstly, ronan wouldn't do any of that shit; he's fundamentally different from k in that way--that’s exactly why maggie uses kavinsky as a foil for ronan’s character in book 2. 

but more importantly, i can't stomach the sexual or romantic pairing of them having interpreted that event as i did. so yeah i'm extremely anti-rovinsky, but mainly because i read ronan as k's victim, and that dynamic in a sexual or romanic context just makes me feel so so gross. ugh.

anyway. if you ship rovinsky no hate, and i am really sorry :/

literally fucking gagging and moaning and crying thinking about gansey… what the fuck he is the king he is egg theory he is all of us… schrödinger’s srf… probably uses fucking vanilla chapstick brand chapstick and drinks soy milk i can’t take this anymore. i can’t take it

hi, i hope you are well! i was looking thru royals' fashion, and was thinking, on a practical note, where do they keep all their clothes, theres just so much! HMQEII for example has probably worn thousands of dresses, cant possibly keep them all, what happens to them? not just her tho, most of them just go thru so many outfits i wonder if they donate them after or smth. (except uber practical princess anne, she seems to be keeping ALL her stuff and wears again in 30 years or so lol). pt2 ->

pt.2. so where do the royal ladies keep their stuff? they are obv not lacking for space so? a set of rooms (but must be so many!) in their apartments? or storage facility? small country castle turned wardrobe? what about air conditioning for preservation. like, where was bea's dress wore stored for 60yrs and what else is 'there'? also, do maxima and mathilde talk about matching soo much lol? i dont expect you to have all the answers, just wondering if you thought about it and have theories. thx

Honestly it’s an interesting question which I don’t have a good  answer for. Angela Kelly wrote a book on dressing the Queen and would be the best source on this but I don’t own it so if anyone can share, that would help! 

In a documentary on the SRF they showed you the wedding dresses which are kept in their vault with their tiaras and such. They’re boxed up and have tissue paper separating the folds in the gowns to make sure they don’t get damaged (I don’t really know how that helps lol). The room is temperature controlled and I think has lighting controls as well. I imagine it’s a similar situation for other royal families where they probably keep things in their vaults either in palaces they live in or ones they have but don’t stay in themselves. I found an article that said “all of the Queen's clothes and accessories are kept and archived at Buckingham Palace. They are stored in boxes and cotton bags inside mahogany wardrobes with airtight doors.” But no source for that so pinch of salt. They have people whose jobs are to maintain their artefacts and historical fashion is probably included in that. I’d imagine the iconic pieces and older pieces are possibly even put in the Royal Collection for the state. But I’d also imagine that for everyday wear they probably have large wardrobes at home. Paul Burrell - who is not the most reliable source but did have close access to the family - said the Queen’s day time outfits that are in current circulation are kept on a specific floor of BP. Another source said those rooms are temperature controlled. Brian Hoey said that when she’s done with an outfit she gives it to her dressers to be sold or worn, we don’t know if that’s true and part of me doubts it. We do know that some outfits are modified so what we might think is a new piece is not.

In terms of the matching I would love to have some insight on that! I always wonder if the Queen’s Private Sec sends a message to KP or whoever before an event and says “the Queen is wearing this so wear something complementary/don’t wear the exact same shade/whatever she wants.” Or if it’s more casual, a WhatsApp group for fashion lol. In some cases - like Maxima and Mathilde - I could honestly imagine it’s entirely coincidental because they shop at so many of the same brands (burn all the Natan in their wardrobe please) and both wear a lot of Benelux designers 

Hi! Good Lord, I was eager to write you a message (too long and too emotional) with words of gratefulness and a request, but it doesn't fit in the ask box which is actually such a disappointment for me. And I simply don't know what to do. Anyway let me just thank you then for all your GJ posts: gifsets, theories and analysis and all of that, especially the SRF tag. It literally gives me life and purpose to my ridiculous existence.

FEEL FREE to send me a long and emotional message anytime @dontletyourguarddown, esp if it has anything to do with SRF!! I am having such fun engaging with people in the ann(e)dom and having interesting and thoughtful discussions about how they’ve interpreted certain things, what moments struck them, and/or how and why this show has resonated with them so meaningfully.  And everyone is always welcome to come shout at me about Sophie Rundle’s Face or Sophie Rundle’s EVERYTHING. Like for instance Sophie Rundle’s ability to convey A FUCKING MULTITUDE OF EMOTIONS in this like two seconds where Ann’s overwhelmed because she finally sees her and also incredulous because she kind of can’t believe it and awed because it’s her Anne and terrified because she knows and her heart is full but she’s also still healing and she’s emotionally exhausted and she’s physically exhausted and, and, and … and I was SHOOK by just her one exhale. 

And hey-ho, friend, I’m sorry that your request didn’t fit in the ask box but let me know what it is and I’ll see what I can do! Thanks for the kind words!

cas-ravenclaw replied to your post “crazy how fred and jokke are brothers.... like they could not be more...”

Do you think theyd have to give up the kids' titles? Bc if i were a parent, thatd be a major point for me, not changing their lives with what im doing and bc i dont want to do my job anymore...they dont even have a surname😂🤷🏼‍♀️😊💕

I mean, their lives wouldn’t change much in practice. None of them hold official duties, none of them are expected to anyway – as far as we know, Nikolai wasn’t given the Order of the Elephant when he turned 18 – and they would, of course, retain their courtesy titles of Counts and Countess of Monpezat – which would solve the surname problem 😊

My problem with the children’s titles is that they have the potential to become a major headache for the DRF in the future. As it is right now, in theory, three of Joachim’s four children are pretty much guaranteed the right to pass on their titles to any legitimate heirs. And seeing as it would be outrageous if Frederik’s nephews would be able to pass on their titles but his own daughters wouldn’t (thus creating a scenario where the grandchildren of the King’s nephew would be royal but the King’s own grandchildren wouldn’t), I can imagine they’ll introduce something akin to what the SRF are doing with Madeleine in Sweden – allowing the girls to pass on their titles as well. This would, of course, include Athena because why should she be the only one of QMII’s grandchildren not to enjoy that right? So this means we potentially will end up with eight people who are all entitled to pass on their princely titles. Say all of them have, what, 3 children each. That’s 24 Danish princes and princesses. That’s just extreme.

So the way I see it, the DRF have two options. Either they could nip it in the bud when dealing with Joachim and his poor attitude to working and abiding by the rules, or they’re gonna have to work something out about the children either not seeking permission before marrying or being refused permission to marry. Seeing as that would also strip them of their titles (think Ingolf and Christian of Rosenborg), I don’t know that it’s that much harsher to just get it over with in the coming future. As I see it, doing it like that would also give them a bigger leverage in their life choices. 

Quantum Information for Particle Theorists - Joseph D. Lykken

At the beginning of 2017, Fermilab did not have a quantum science program. Today in 2020 we have SQMS [31] a National QIS Research Center; we lead a national QIS theory consortium; we have an algorithms group working on quantum computers to explore applications of quantum machine learning, and we are helping to build and host the world’s leading quantum teleportation system [9]. We also host multiple groups developing quantum sensor technologies for new kinds of particle physics experiments with unprecedented sensitivities. Two of these collaborations are already deploying experiments: Dark SRF, a “light shining through walls" dark photon experiment using ultra-high-Q SRF cavities as photon emitters and receivers, and MAGIS-100, a 100 meter scale cold atom gradiometer with sensitivity to both dark matter and gravity waves. Particle theorists are playing important roles in many of these efforts, and I would especially encourage students and postdocs to explore the opportunities in these rapidly developing areas, which are expanding the traditional boundaries of our field. As I have tried to indicate in these lectures, just because quantum mechanics has been around for a long time does not mean that we understand it or are thinking about it in the most productive way. The same goes for particle physics, where even the notion of fundamental “particles" is starting to look like a sloppy way of thinking. Consider the electron; it has a mass, but apparently no size, and its mass is apparently nothing more than an interaction with an invisible Higgs field. The electron carries intrinsic angular momentum, but is not actually spinning; the electron carries charge, but the effects of that charge are mixed up with properties of the quantum vacuum. The wave function of your electron may be localized away from the wave function of my electron, but they are both excitations of the same quantum field, and furthermore may be strongly entangled. And of course the electron is the easy case; most fundamental particles are unstable, and thus “virtual", or are confined, and thus only indirectly observable. So is it really more “physical" to think of the electron as a particle, rather than as a bundle of quantum information?

Week 6 - Theory - Hardware Compressors

There are multiple types of physical compressor:

Optical

Optical compressors use a light element and an optical cell to apply compression to an audio signal. The brightness of the light is directly tied to the amplitude of the audio signal, allowing the optical cell to attenuate the output signal to meet the threshold.

Above: An optical compressor featuring a lightbulb and optical cell.

Valve

Valve compression is one of the earliest forms - it has slower attack and release than most other forms, however provides a "vintage" sound which is sought after for its uniqueness.

References:

https://www.jedspeds.co.uk/product-page/optical-compressor

ICAR AIEEA UG 2020 Syllabus: Apply online up to April 30 - Times of India

New Post has been published on https://apzweb.com/icar-aieea-ug-2020-syllabus-apply-online-up-to-april-30-times-of-india/

ICAR AIEEA UG 2020 Syllabus: Apply online up to April 30 - Times of India

National Testing Agency (NTA) has extended the last date to submit the online applications for Indian Council of Agricultural Research (ICAR) All India Entrance Examination For Admission (AIEEA) till April 30, 2020.

The interested candidates can submit their online applications for ICAR AIEEA UG 2020 through the official website of NTA ICAR — icar.nta.nic.in.

ICAR AIEEA UG 2020 is being conducted for admission to Bachelor Degree programmes in Agriculture and Allied Sciences (other than Veterinary Sciences), at Agricultural Universities in India.

The official notification in this regard reads “In view of the hardships faced by the parents and the students due to COVID-19 epidemic, the National Testing Agency has extended/ revised the date of submission of Online Application Forms for ICAR’s AIEEA (UG), AIEEA (PG) and AICE-JRF/SRF(Ph.D.) – 2020 examinations as under:”

Revised/Extended Dates

From To 01.03.2020 30.04.2020

ICAR AIEEA UG 2020 SYLLABUS

PHYSICS

Unit-1: Physical World and Measurement Unit-2: Kinematics Unit-3: Laws of Motion Unit-4: Work, Energy and Power Unit-5: Motion of System of Particles and Rigid Body Unit-6: Gravitation Unit-7: Properties of Bulk Matter Unit-8: Thermodynamics Unit-9: Behaviour of Perfect Gas and Kinetic Theory Unit-10: Oscillations and Waves Unit-11: Electrostatics Unit-12: Current Electricity Unit-13: Magnetic Effects of Current and Magnetism Unit-14: Electromagnetic Induction and Alternating Currents Unit-15: Electromagnetic waves Unit-16: Optics Unit-17: Dual Nature of Matter and Radiation Unit-18: Atoms & Nuclei Unit-19: Electronic Devices Unit-20: Communication Systems

CHEMISTRY

Unit-1: Some Basic Concepts of Chemistry Unit-2: Solid State Unit-3: Solutions Unit-4: Structure of Atom Unit-5: Classification of Elements and Periodicity in Properties Unit-6: Chemical Bonding and Molecular Structure Unit-7: States of Matter: Gases and Liquids Unit-8: Thermodynamics Unit-9: Equilibrium Unit-10: Redox Reactions Unit-11: Hydrogen Unit-12: s-Block Elements (Alkali and Alkaline earth metals) Unit-13: Preparation and properties of some important compounds Unit-14: Some p-Block Elements Unit-15: Group 14 elements Unit-16: Organic Chemistry Unit-17: Hydrocarbons Unit-18: Electrochemistry Unit-19: Chemical Kinetics Unit-20: Surface Chemistry Unit-21: General Principles and Processes of Isolation of Elements Unit-22: p-Block Elements Unit-23: Group 16 elements Unit-24: Group 17 elements Unit-25: Group 18 elements Unit-26: d and f Block Elements Unit-27: Coordination Compounds Unit-28: Haloalkanes and Haloarenes Unit-29: Alcohols, Phenols and Ethers Unit-30: Aldehydes, Ketones and Carboxylic Acids Unit-31: Organic compounds containing Nitrogen Unit-32: Biomolecules Unit-33: Polymers Unit-34: Environmental Chemistry Unit-35: Chemistry in Everyday life

BIOLOGY (BOTANY AND ZOOLOGY)

Unit : 1 The Living World Unit : 2 Unit of Life Unit : 3 Diversity of Life Unit : 4 Organisms and Environment Unit : 5 Multicellularity : Structure and Function – Plant Life Unit : 6 Multicellularity : Structure and Function – Animal Life Unit : 7 Continuity of Life Unit : 8 Origin and Evolution of Life Unit : 9 Application of Biology

MATHEMATICS

Unit-1: Sets and Functions Unit-2: Algebra Unit-3: Coordinate Geometry Unit-4: Calculus Unit-5: Vectors and Three-Dimensional Geometry Unit-6: Linear Programming Unit-7: Mathematical Reasoning Unit-8: Statistics & Probability Unit-9: Statics Unit-10: Dynamics

AGRICULTURE

Unit-1: Agrometeorology, Genetics and Plant Breeding, Biochemistry and Microbiology Unit-2: Livestock Production

Unit-3: Crop Production Unit-4: Horticulture

Candidates who are appearing for ICAR AIEEA UG 2020 can check the detailed ICAR AIEEA UG 2020 syllabus from the link given below.

Click here to check the ICAR AIEEA UG 2020 syllabus

Candidates should note that besides the above syllabus any other question of scientific and educational importance may be asked.

What is ICAR AIEEA UG? NTA conducts AIEEA 2020 for the first time for admission in Agricultural courses in various universities of India.

How to apply for ICAR AIEEA UG 2020? Candidates can apply for ICAR AIEEA UG 2020 through the official website of NTA ICAR — icar.nta.nic.in. It is to be noted that the application form can be filled in online mode only.

When is the last date to apply for AIEEA UG 2020? The last date to submit online applications for ICAR AIEEA UG 2020 is April 30, 2020.

When will be the ICAR AIEEA UG 2020 conducted? As per the schedule available on the official website, the ICAR AIEEA UG 2020 will be conducted on June 1, 2020.

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The FOX (U.S.A.) taking care of the HEN House...

Taking the moral high ground (as always), US officials have said that Huawei could covertly access mobile-phone networks through 'back doors'.

OMG! You mean like the US did with Crypto?

The revelation that the CIA (and German Intelligence) was in secret control of the Swiss cryptography firm Crypto AG highlights the hypocrisy of US 'security concerns' over the advance of Huawei and other firms.

The very wise old saying that if you point one finger at someone there are three fingers pointing back at you, was classically illustrated by this week's bombshell revelations — published in the Washington Post and on ZDF and SRF - that the CIA and BND (West Germany's secret service) secretly owned and controlled the Swiss cryptography company Crypto. The real owners of Crypto installed 'backdoor vulnerabilities' in its products which allowed the US and West Germany to eavesdrop on communications — from enemies and allies alike — which the senders believed had been successfully encrypted. We're talking here about top secret communications between leading government officials, spies, diplomats and military figures.

Just imagine that back in the 1970s or 80s you had claimed that the Crypto was a CIA front. You'd have been dismissed as a 'crank conspiracy theorist, 'and/or 'totally paranoid' by the gatekeepers of that time. But the rumours were true. Once again a 'conspiracy theory' has turned out to be not as barmy as once depicted. Truth again proved to be stranger than fiction.

Harmonic Mitigation by SRF Theory Based Active

Power Filter using Adaptive Hysteresis Control

Hey Jessica, I hope you are doing well! :) I have a question for you about titles. If Victoria and Daniel were to get a divorce (which hopefully never happens!), would Daniel keep his title of a prince/duke, or just go back to his given last name? Also, if Chris had accepted a title, would he have been made a prince also? Or is Daniel a prince bc Victoria will be the future queen? Sorry for all the questions, I just find this really interesting!

So the truthful but frustrating answer to both of these questions is that we don’t know for sure. In the history of the SRF there has never been a case of an heiress apparent marrying a commoner and the man being granted a title so there is no precedent to look to. The SRF’s policy on titles- with the women having duchies in their own right- is quite unique so we really don’t know. I spoke to some friends and we think that he’d probably lose the title just for simplicity but there is no precedent so we don’t know. As for chris, it has never been disclosed which titles he was offered and it is again a very unique situation as before the change to succession laws Madeleine would have lost her HRH and had to rely on the king giving her a courtesy title as he did with his sister because she married Chris, a commoner. So their situation is also unprecedented but most people seem to think it would have been Duke of Halsingland and Gastrikland rather than Prince. That might not be true but it’s the most popular theory in the press

Can average student crack the JAM Exam  & what scholarship can i get?

Hello

Yes, average students definitely clear the IIT JAM Exam. If you prepare well with the best strategy, then you can easily clear the exam. IIT JAM Syllabus mostly include BSc syllabus so if you study well in BSc and cover the complete IIT JAM Syllabus then you can clear the exam. Below you can check some tips which will help you to crack the exam.

Know the complete syllabus and exam pattern.

Analyze the syllabus with bsc course and find out common topics.

Make your time table to cover the syllabus and also solve previous year question papers.

Focus on your speed.

Focus theory and numerical part both. Because IIT JAM includes the questions for both.

Make your own notes or buy notes who cover the complete syllabus with numerical and theory.

To reduce the financial burden for brilliant candidates, Indian Institute of Technology provides you many IIT Scholarships which are based on following criterion:

Financial 

Caste

Previous Standard Score

Student’s Merit. 

You can check the scholarship name that provided by IITs.

IIT Scholarship Name

Merit- cum- Means Scholarship

Facilities of free messing

NBHM (National Board of Higher Mathematics)

DBT Scholarship

DBT-JRF, DBT-SRF (Department of Biotechnology Jr. research Fellowship)

DST-INSPIR

Satyaram Scholarships

Scholarship for Academic Excellence

SC-ST Scholarships

Indian Women’s Association, Bonn (IWAB) Scholarship

 Hope it will help you!!

Thank You!!

At the beginning of 2017, Fermilab did not have a quantum science program. Today in 2020 we have SQMS [31] a National QIS Research Center; we lead a national QIS theory consortium; we have an algorithms group working on quantum computers to explore applications of quantum machine learning, and we are helping to build and host the world’s leading quantum teleportation system [9]. We also host multiple groups developing quantum sensor technologies for new kinds of particle physics experiments with unprecedented sensitivities. Two of these collaborations are already deploying experiments: Dark SRF, a “light shining through walls" dark photon experiment using ultra-high-Q SRF cavities as photon emitters and receivers, and MAGIS-100, a 100 meter scale cold atom gradiometer with sensitivity to both dark matter and gravity waves. Particle theorists are playing important roles in many of these efforts, and I would especially encourage students and postdocs to explore the opportunities in these rapidly developing areas, which are expanding the traditional boundaries of our field. As I have tried to indicate in these lectures, just because quantum mechanics has been around for a long time does not mean that we understand it or are thinking about it in the most productive way. The same goes for particle physics, where even the notion of fundamental “particles" is starting to look like a sloppy way of thinking. Consider the electron; it has a mass, but apparently no size, and its mass is apparently nothing more than an interaction with an invisible Higgs field. The electron carries intrinsic angular momentum, but is not actually spinning; the electron carries charge, but the effects of that charge are mixed up with properties of the quantum vacuum. The wave function of your electron may be localized away from the wave function of my electron, but they are both excitations of the same quantum field, and furthermore may be strongly entangled. And of course the electron is the easy case; most fundamental particles are unstable, and thus “virtual", or are confined, and thus only indirectly observable. So is it really more “physical" to think of the electron as a particle, rather than as a bundle of quantum information?

Joseph D. Lykken

SENS Research Foundation Raises $5 Million, Largely in Cryptocurrency Donations

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I'm pleased to note that the 2017 year end SENS Research Foundation fundraiser raised far more than anyone thought was likely - more than $5 million, in fact. This was due to the generosity of a number of high net worth individuals who committed sizable philanthropic donations from their cryptocurrency holdings. These are exciting times for the treatment of aging as a medical condition! Many thanks are due to those people, and to everyone else who supported the continued work of the SENS Research Foundation staff and associated scientific groups to reverse aging through damage repair. We stand upon the verge of a truly massive revolution in medicine, and it is the philanthropists who will get us there.

SENS Research Foundation 2017 Year End Fundraiser Achieves Over $5 Million in Donations

SENS Research Foundation (SRF), a leading Silicon Valley nonprofit focused on diseases of aging, announced today that it received over $5 Million in donations during its year end fundraising campaign. These donations included $1 Million in Bitcoin from the Pineapple Fund; $1 Million in Bitcoin from an anonymous donor; and $2.4 Million in Ethereum from Vitalik Buterin, the cofounder of Ethereum and Bitcoin Magazine.

"SENS Research Foundation is pleased by the strong support we have received from members of the tech community who are innovative leaders in utilizing cryptocurrency. We appreciate their support and look forward to partnering with them going forward. We are very grateful to all of our donors for their incredible support of our Year End Campaign. Our initial campaign goal was $250,000. We were thrilled to receive over 1400 donations totaling over $5 million in just ten weeks. Achieving this level of donation in such a short period of time shows that the momentum SENS Research Foundation has achieved is continuing to accelerate. We are looking forward to engaging even more of the tech community in our work and to continue to accelerate our progress through the expansion of our research programs. Their support makes this growth possible."

On this topic, I have a pet theory regarding wealth and its use to change the world. Historically, people who became extraordinarily wealthy have done so only after many years of work on projects that they were deeply invested in for the sake of the work, not for the sake of financial reward. Consequently they had no real idea regarding what to do with that wealth, other than to keep on...

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