b) Uncertainty of outcomes. Quantum Computers leverage principles from quantum mechanics, such as superposition and entanglement, to perform computations. These principles introduce a level of uncertainty in the outcomes of calculations. In a quantum computer, the state of a qubit (quantum bit) can exist in multiple states simultaneously, allowing for parallel processing and the potential to solve certain problems more efficiently than classical computers. However, due to the inherent uncertainty and probabilistic nature of quantum systems, the outcomes of quantum computations are probabilistic and can only be predicted with a certain probability. On the other hand, Supercomputers are classical computers that use traditional computing architectures and algorithms to perform computations. They operate based on well-defined and deterministic algorithms, where the output is precisely determined by the input. Therefore, the correct answer is option b) Uncertainty of outcomes, as it highlights a key distinction between Quantum Computers and Supercomputers
Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities.
B) The uncertainty of outcomes Since QUANTUM PHYSICS works on probability. For eg An orbital of an atom is space around the atom where the probability of finding an electron is maximum.
what makes Quantum Computers different from SuperComputers? a.Atoms and molecules b.Uncertainty of outcomes c.Algorithm d.None of the above answer is b.Uncertainty of outcomes
"Sorry, The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
B) uncertainty of outcomes Super computers would use transistors and depend on bits (= 1 or 0) and bytes. Whereas, quantum computers use qbits which are a range.
"""""""Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
Fantastic breakdown of quantum computing in just 5 minutes! This video simplifies a complex topic and makes it accessible to everyone. Understanding the basics of quantum computing is crucial in today's tech-driven world, and this video does a great job of explaining it concisely. Thanks for sharing this informative content.
A) Atoms and molecules - it looks a bit fuzzy as an answer, but the quantum computer will literally be able to play with atoms and molecules in order to drive everything. B) just shows the Shrodinger principle, but if they were based on uncertainty, they wouldn't be computers and all. And C), well come on are you telling me modern computers don't utilize algorithms?
"Sorry, The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
B - Uncertainty. Super computers rely on one of 2 states, while quantum computing takes advantage of multiple states, like some degree of mostly heads or mostly tails of a qubit or multiple qubits.
"Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
a, b, c all A:- because it masure dual nature of subatomic particles B:- due to super position and entanglement the out is more accurate and un certain C:- quantam algorithm are new creating method of multi directional resulting
a) atoms and molecules... My question is how the user enter the data to quantum computer??? 🤔🤔🤔 Do they use computer keyboards as input devices. Also how the people see the results given by the quantum computer??? 🤔🤔🤔Do they use monitors as output devices. You already said the quantum computer not like the traditional computer, how the scientists make it user friendly to the people who access it?????? 🤔🤔🤔🤔
"Sorry, The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
I'm fairly certain that with quantum computing it's possible to run a simulation where there's 8.8 billion versions of Ryan and Dave each flipping multiple versions of coins simultaneously with a fifty percent probability of heads or tails. Multiplied by however many simulations you would like to run on the quantum computing system. Then there's two probabilities and two events with an accumulation and a decumulation. Then there's also and exclusion of Stacey and Casey who are women/ladies and not men which the scenario could also be run identically on. Then obvious the coin allocation goes to one or the other in a very simplistic model of bimodal pairing. The then a third coin needs to be introduced and the a reallocation. Could keep running scenarios to split, half, balance, percentage scenarios.
the subject is great but as soon as we go for decision making it will harm us but the truth is truth (Uncertainty of outcomes) because of the subject till now based on probability and quantum physics
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"Sorry, The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
Idiotic clickbait. All the videos and articles claiming to explain quantum computing explain nothing but the most banal and the very remotely related concept spit out without any comprehension of how they actually link to quantum computing. This is because those You-tubers have no idea how exactly a quantum computer actually works so they copy/paste and regurgitate generic and vague ideas. Utterly useless, my grandmother could give better insight.
"Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
Super computers use electron flows to process data whereas quantum computers exploit the physics of quantum mechanics to process and store data such as energy and magnetic state changes between processes entangled in a process.
Some portion of 0 and some portion of 1, means there are more possibilities, right? So, it's like if you take a single note on the piano, say the note C. And you divide it up into 10 notes of different frequencies, but still within the range of the note C. They are all still the note C but not quite. This way you would be able to play an entire song just from one note. The ear would not really be able to hear the melody clearly, but the song would be there. Am I understanding this correctly? But how do more possibilities give more speed? Sounds like more things to calculate would make it slower.
Quantum computing doesn't just increase the possibilities (states of bits or the range between 1 and 0) it merges the possibilities, in other words process the increased possibilities at once, simultaneously
"""""""Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
Answer is b as supercomputer use the given algorithm and however the quantam physics is always uncertain due its numerous outcomes even between 2 normal things.
"Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
Hello! To learn quantum computing, consider pursuing courses in Electrical Engineering, Computer Science, or Physics, with a focus on quantum mechanics, linear algebra, and computer programming. Many universities offer specialized courses in quantum computing as part of these programs.
"Congratulations, you got the right answer and are one of our 3 lucky winners of the contest. Please reply with your email ID to this comment to receive your Amazon gift voucher. The answer to the quiz is given below: The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
"Sorry, The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
I'm in awe of this content. I read a book with a similar theme, and it was truly awe-inspiring. "Game Theory and the Pursuit of Algorithmic Fairness" by Jack Frostwell
"""""""Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
"Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
I think quantum computer can derive and understand 0 and 1 to 0,0.1,0.2 .... 0.9,1 . So it does things in less time and less energy ,which means a lot of faster. But more advanced quantum computers can go like 100s or 1000s and surpass the human brain and become a powerful AI .
Correct answer is uncertainty of outcomes. Quantum computing creates various outputs for various inputs. The correct output identification is entirely calculated based on probability.
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"Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
"""""""Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
Psi, the wavefunfunction, is understood as matter actually turning into space, and according to CIG Theory. Thus, Superposition is readily understood. So, Quantum Qubits are understood as new space, 0's and 1's. An introduction to CIG Theory can be found by clicking the link above. Thank you for this video. "Let's Go Quantum" !
"Sorry, The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
From my understanding quantum computing is based on the number of qubits a single qubit is able to compute 0 and 1 as answers as well as 00 01 10 11. As you add more qubits the computational ability is exponential in possibilities and therefore is able to compute faster. Would you agree on this or am i missing something
If the research in quantum computer is completely successful. I think it will probably generate a breakthrough to the human race, and I just hope it will not be utilized in some negative purposes.
We're thrilled to have been a part of your learning experience, and we hope that you feel confident and prepared to take on new challenges in your field. If you're interested in further expanding your knowledge, check out our course offerings in the description box.
We're so glad that you enjoyed your time learning with us! If you're interested in continuing your education and developing new skills, take a look at our course offerings in the description box. We're confident that you'll find something that piques your interest!
"Sorry, The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
We're thrilled to have been a part of your learning experience, and we hope that you feel confident and prepared to take on new challenges in your field. If you're interested in further expanding your knowledge, check out our course offerings in the description box.
We're so glad that you enjoyed your time learning with us! If you're interested in continuing your education and developing new skills, take a look at our course offerings in the description box. We're confident that you'll find something that piques your interest!
Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities.
"Sorry, The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
"Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
"Congratulations, you got the right answer and are one of our 3 lucky winners of the contest. Please reply with your email ID to this comment to receive your Amazon gift voucher. The answer to the quiz is given below: The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
"Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
"Sorry, The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
"Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
"""""""Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
The fresh perspective of this content is enlightening. A book with like themes offered a new lens on life. "The Art of Meaningful Relationships in the 21st Century" by Leo Flint
"Sorry, The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
"Sorry, The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
"Sorry, The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
I do not agree with the explanation given by Simplilearn because uncertainties are both for quantum computers as well as conventional computers. The wave function of wide range of values is collapsed to a certain value when measurement is made according to the laws of quantum physics. It is the superposition and the entanglement which makes the quantum computers different from traditional ones. Kindly consult with a renowned quantum physics scientist or teacher. Obviously there is wide range of possibilities so option b) is correct but it is simultaneous due to superposition and entanglement
"Sorry, The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
"""""""Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
"Sorry, The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities.
Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities.
"Sorry, The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
"""""""Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
"""""""Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
"Sorry, The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
"Sorry, The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
"Sorry, The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
"Sorry, The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
I’m going to say d none of the above all computers have similar features it’s up the user to test and make the quantum portion more engaging and to increase its potential.
"Sorry, The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
"Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
"""""""Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
We're thrilled to have been a part of your learning experience, and we hope that you feel confident and prepared to take on new challenges in your field. If you're interested in further expanding your knowledge, check out our course offerings in the description box.
"Sorry, The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
"Sorry, The correct answer is B) Uncertainty of outcomes Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
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Which app did u used for editing
Red
Wow. The most complex way to explain flip the coin and quantum computing
Examples are not an explanation of how. I am still in the dark
This program taught me nothing.
Because you are not ready.
@@NoohCee He was ready to be taught nothing
Don’t disappoint me I just want to watch
@@barackyunus You just want to waste your time?
Hahaha😊
b) Uncertainty of outcomes.
Quantum Computers leverage principles from quantum mechanics, such as superposition and entanglement, to perform computations. These principles introduce a level of uncertainty in the outcomes of calculations. In a quantum computer, the state of a qubit (quantum bit) can exist in multiple states simultaneously, allowing for parallel processing and the potential to solve certain problems more efficiently than classical computers. However, due to the inherent uncertainty and probabilistic nature of quantum systems, the outcomes of quantum computations are probabilistic and can only be predicted with a certain probability.
On the other hand, Supercomputers are classical computers that use traditional computing architectures and algorithms to perform computations. They operate based on well-defined and deterministic algorithms, where the output is precisely determined by the input.
Therefore, the correct answer is option b) Uncertainty of outcomes, as it highlights a key distinction between Quantum Computers and Supercomputers
Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities.
B) The uncertainty of outcomes
Since QUANTUM PHYSICS works on probability.
For eg An orbital of an atom is space around the atom where the probability of finding an electron is maximum.
what makes Quantum Computers different from SuperComputers?
a.Atoms and molecules
b.Uncertainty of outcomes
c.Algorithm
d.None of the above
answer is b.Uncertainty of outcomes
The correct answer is option d)
The option b) is correct if considered with the quantum superposition and the entanglement
"Sorry, The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
@@SimplilearnOfficial Lol...that's what i chose. Option B and i still dont understand what quantum computers do.
😢v@@CT2507bro they give 10000 of possibilities even for 1 thing
(b) uncertainty of outcomes
B) uncertainty of outcomes
Super computers would use transistors and depend on bits (= 1 or 0) and bytes. Whereas, quantum computers use qbits which are a range.
"""""""Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
What? Barclays and JP Morgan already use quantum computing for encryption? Before quantum computers have been deployed? Time Machine?
Fantastic breakdown of quantum computing in just 5 minutes! This video simplifies a complex topic and makes it accessible to everyone. Understanding the basics of quantum computing is crucial in today's tech-driven world, and this video does a great job of explaining it concisely. Thanks for sharing this informative content.
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A) Atoms and molecules - it looks a bit fuzzy as an answer, but the quantum computer will literally be able to play with atoms and molecules in order to drive everything. B) just shows the Shrodinger principle, but if they were based on uncertainty, they wouldn't be computers and all. And C), well come on are you telling me modern computers don't utilize algorithms?
"Sorry, The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
B - Uncertainty. Super computers rely on one of 2 states, while quantum computing takes advantage of multiple states, like some degree of mostly heads or mostly tails of a qubit or multiple qubits.
b) Uncertainty of outcome. But, I'm uncertain. If I'm right it also means all of the above, which wasn't in the choice but should be.
thx for sharing... god bless everyone and the world.. regards from hong kong ^_^
answer to the question -
b) Uncertainty of outcomes
"Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
a, b, c all
A:- because it masure dual nature of subatomic particles
B:- due to super position and entanglement the out is more accurate and un certain
C:- quantam algorithm are new creating method of multi directional resulting
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a) atoms and molecules... My question is how the user enter the data to quantum computer??? 🤔🤔🤔 Do they use computer keyboards as input devices. Also how the people see the results given by the quantum computer??? 🤔🤔🤔Do they use monitors as output devices. You already said the quantum computer not like the traditional computer, how the scientists make it user friendly to the people who access it?????? 🤔🤔🤔🤔
"Sorry, The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
@@SimplilearnOfficial read his questions again
I'm fairly certain that with quantum computing it's possible to run a simulation where there's 8.8 billion versions of Ryan and Dave each flipping multiple versions of coins simultaneously with a fifty percent probability of heads or tails. Multiplied by however many simulations you would like to run on the quantum computing system. Then there's two probabilities and two events with an accumulation and a decumulation. Then there's also and exclusion of Stacey and Casey who are women/ladies and not men which the scenario could also be run identically on. Then obvious the coin allocation goes to one or the other in a very simplistic model of bimodal pairing. The then a third coin needs to be introduced and the a reallocation. Could keep running scenarios to split, half, balance, percentage scenarios.
Thanks for watching our video and sharing your thoughts. Do subscribe to our channel and stay tuned for more. Cheers!
@@SimplilearnOfficial A
the subject is great but as soon as we go for decision making it will harm us but the truth is truth (Uncertainty of outcomes) because of the subject till now based on probability and quantum physics
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We love your short and meaning full videos 😍💖. Thank you so much to making my learning journey captivating 😊😊
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Uncertainty option (c)
Quantum physics's basic is uncertainty.
Well explained 🙏 thanks for the video. I am gonna explore more now.
"Sorry, The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
😅 thank you ...I wrote the wrong option alphabet. I need to be more careful while answering.
@@write_shivanshi 😂😂😂😂 Nice Excuse
@@SimplilearnOfficialso it extrapolates… and is able to imagine multiple scenarios?
Thanks
Welcome
Idiotic clickbait. All the videos and articles claiming to explain quantum computing explain nothing but the most banal and the very remotely related concept spit out without any comprehension of how they actually link to quantum computing. This is because those You-tubers have no idea how exactly a quantum computer actually works so they copy/paste and regurgitate generic and vague ideas. Utterly useless, my grandmother could give better insight.
I am sorry but your description is not correct. Quantum computer is "NOT" the replacement of The Classic computer.
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A and B ...Atoms and molecules and their uncertain behavior makes the quantum computer different
"Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
Super computers use electron flows to process data whereas quantum computers exploit the physics of quantum mechanics to process and store data such as energy and magnetic state changes between processes entangled in a process.
Some portion of 0 and some portion of 1, means there are more possibilities, right? So, it's like if you take a single note on the piano, say the note C. And you divide it up into 10 notes of different frequencies, but still within the range of the note C. They are all still the note C but not quite. This way you would be able to play an entire song just from one note. The ear would not really be able to hear the melody clearly, but the song would be there.
Am I understanding this correctly? But how do more possibilities give more speed? Sounds like more things to calculate would make it slower.
Quantum computing doesn't just increase the possibilities (states of bits or the range between 1 and 0) it merges the possibilities, in other words process the increased possibilities at once, simultaneously
B. THIS IS UNCERTAIN TY OF OUTCOME. This is because that the outcome.might be a part of 1 or 0.
"""""""Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
Answer is b as supercomputer use the given algorithm and however the quantam physics is always uncertain due its numerous outcomes even between 2 normal things.
"Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
This video is educative
Which engineering coure we have to take to learn quantum computing
Hello! To learn quantum computing, consider pursuing courses in Electrical Engineering, Computer Science, or Physics, with a focus on quantum mechanics, linear algebra, and computer programming. Many universities offer specialized courses in quantum computing as part of these programs.
What background information i need to understand this?
b) Uncertainty of outcomes
"Congratulations, you got the right answer and are one of our 3 lucky winners of the contest. Please reply with your email ID to this comment to receive your Amazon gift voucher. The answer to the quiz is given below:
The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
Hi Anand, could you please share your email ID for the gift voucher? Thanks.
c) Algorithm since, quantum computer is aiming to use new quantum algorithm to accelerate digital computation
"Sorry, The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
I'm in awe of this content. I read a book with a similar theme, and it was truly awe-inspiring. "Game Theory and the Pursuit of Algorithmic Fairness" by Jack Frostwell
(B) Uncertainty of outcomes
"""""""Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
Thanks 😊. Video was very helpfull to understand the mechanism of cloud computing
Answer is B) Uncertainty of outcomes
"Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
I think quantum computer can derive and understand 0 and
1 to 0,0.1,0.2 .... 0.9,1 . So it does things in less time and less energy ,which means a lot of faster.
But more advanced quantum computers can go like 100s or 1000s and surpass the human brain and become a powerful AI .
Correct answer is uncertainty of outcomes. Quantum computing creates various outputs for various inputs. The correct output identification is entirely calculated based on probability.
We're so glad that you enjoyed your time learning with us! If you're interested in continuing your education and developing new skills, take a look at our course offerings in the description box. We're confident that you'll find something that piques your interest!
I was literally wanna learn about it
Thank u so much
Keep learning with us .Stay connected with our channel and team :) . Do subscribe the channel for more updates : )
B] Uncertainty of outcomes
Because quantum computers can handle the mixture of two outcomes, they are distinct from the supercomputers.
"Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
Thank you so much❤
b) Uncertainty of outcomes.
"""""""Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
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Psi, the wavefunfunction, is understood as matter actually turning into space, and according to CIG Theory. Thus, Superposition is readily understood. So, Quantum Qubits are understood as new space, 0's and 1's. An introduction to CIG Theory can be found by clicking the link above. Thank you for this video. "Let's Go Quantum" !
So, a quantum computer is faster because it can process several data states at once? Is that an accurate description?
Thank you
I think the answer of the question is A
it's algorithms
"Sorry, The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
From my understanding quantum computing is based on the number of qubits a single qubit is able to compute 0 and 1 as answers as well as 00 01 10 11. As you add more qubits the computational ability is exponential in possibilities and therefore is able to compute faster. Would you agree on this or am i missing something
....that is what a decimal point... I think qubit is not define....yet.
B. Uncertainty and outcome
D) Uncertainity of outcomes
If the research in quantum computer is completely successful. I think it will probably generate a breakthrough to the human race, and I just hope it will not be utilized in some negative purposes.
Option B) uncertainty of outcomes
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Very stupid question!
Do you suggest "Physics" or "Math + CS" a good UG path toward to quantum computing?
"and"
b) Uncertainty of outcomes
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B.) Uncertainty of Outcomes
"Sorry, The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
4:21 Atoms and molecules
We're thrilled to have been a part of your learning experience, and we hope that you feel confident and prepared to take on new challenges in your field. If you're interested in further expanding your knowledge, check out our course offerings in the description box.
b) uncertainty of outcomes
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D)none of the above
Cuz,speed is the major difference
Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities.
Atoms and Molecules .
"Sorry, The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
Uncertainty of Outcomes (B)
"Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
The concept is great and more initiat to do and l hope quantum computing is more advance for our future world and thanks for this idea developers
The correct answer is B - Uncertainty of outcomes.
"Congratulations, you got the right answer and are one of our 3 lucky winners of the contest. Please reply with your email ID to this comment to receive your Amazon gift voucher. The answer to the quiz is given below:
The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
answrs is b probabilities superposition and quantum entanglement in particle physics
"Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
QAI - Quantum Artificial Intelligence 🤖
"Sorry, The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
Plz make a vdo in QUANTUM SATELLITE
The main difference is the "Uncertainty of outcomes."
"Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
B) Uncertainty of Outcome
"""""""Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
The fresh perspective of this content is enlightening. A book with like themes offered a new lens on life. "The Art of Meaningful Relationships in the 21st Century" by Leo Flint
I guess the answer is option C
The video was amazing and helped me understand quantum.computing
Hope u make such videos even in the future 😁😁
"Sorry, The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
Which app did u used for editing
The answer is Atoms and Molecules.
"Sorry, The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
D) None of these...........because super computers need more complex data over quantum computers
Even All of the above would be correct answer.
"Sorry, The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
I do not agree with the explanation given by Simplilearn because uncertainties are both for quantum computers as well as conventional computers. The wave function of wide range of values is collapsed to a certain value when measurement is made according to the laws of quantum physics. It is the superposition and the entanglement which makes the quantum computers different from traditional ones. Kindly consult with a renowned quantum physics scientist or teacher.
Obviously there is wide range of possibilities so option b) is correct but it is simultaneous due to superposition and entanglement
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Thank you for the detailed response, can I get your email number, I have a couple of questions.
I know I'm late for this video, but ans is Algorithm
"Sorry, The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
Answer is B
"""""""Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
A ) atoms and molecules
"Sorry, The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
B.Uncertaninty of outcomes
Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities.
option b) uncertainty of outcomes
Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities.
All of the above
"Sorry, The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
Thanks for this quick video!
Happy to help!
A, B and C
The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
I think the difference is uncertainty of outcomes.
"""""""Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
the correct option is - C
B) uncertainty of outcomes
"""""""Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
Atoms & molecules
"Sorry, The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
@@SimplilearnOfficial thanks for correcting me!!
Answer:b
a) Atom and Molecules
"Sorry, The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
I think the answer is d) None of the above
"Sorry, The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
The answer is A
"Sorry, The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
I’m going to say d none of the above all computers have similar features it’s up the user to test and make the quantum portion more engaging and to increase its potential.
(A) atoms and molecules
"Sorry, The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
option B
"Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
It's (b)
"""""""Hello! You're absolutely right!. The answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
Option A
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The answer is d
"Sorry, The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."
Atoms and molecules
Ans - (a)
"Sorry, The correct answer is B) Uncertainty of outcomes
Quantum Computing works on the principle of quantum physics i.e., the properties of superposition and fluidity. Due to which the range of Outcomes become even larger within two possibilities."