# TQ Quantum Computing Answers

## 1.What is a use case factorization in quantum Computing?

A.randomizing data sets

B.simulating language patterns entio fidential

C.optimization of routes

D.don’t know this yet.

Ans: C.optimization of routes.

Q2.What does the term superposition refer to?

A.way to efficiently store encrypted data using qubits.

B.way that algorithms determine combinations of probabilities.

C.The ability of a qubit to be in an determinate state.

D.The ability of an algorithm to decrypt data during processing

Ans: B.way that algorithms determine combinations of probabilities.

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Q3.How is a qubit in quantum computing different from a regular bit in classical computing?

A.qubit stores information as graphical Images

B.qubit can represent an indeterminate state.

C.A qubit can represent a value as 0 1 2

D.qubit takes up less memory space than a regular bit.

Ans: B.qubit can represent an indeterminate state.

Q4.In quantum computing, what is the basic unit of information?

A.giga

B.qubit

C.bit

D.byte

Ans: B. Qubit.

Q5.Which element of Accenture applied quantum computing strategy directly delivers value to Clients?

A.hosting a data center for quantum computers

B.solving real-world needs with industry knowledge

C.researching new materials for super-conductivity

D.developing quantum computing chip architectures

Ans: B.solving real-world needs with industry knowledge.

Q6.Which part of the drug discovery life cycle can quantum computing impact the most?

A.regulatory approval

B.molecular simulation

C.clinical trials

D.labaratory testing

Ans: A.regulatory approval.

Q7.What does it mean when we say that we are currently in the noisy, intermediate scale quantum computing stage?

A.Quantum computers have already reached peak performance and cannot be improved further. Quantum

B.Quantum computers are still in the early theoretical stage, with no I machines built yet.

C.Some quantum computers can now be purchased cheaply in stores by individual consumers.

D.Quantum computers are able to solve a number of current problems, and will continue to advance.

Ans: D.Quantum computers are able to solve a number of current problems, and will continue to advance.

Q8.What is the purpose of “post-quantum” cryptography?

A.to eliminate all encryption methods programmed on classical computers

B.to create encryption methods that quantum computers cannot crack

C.to use quantum computers to create more secure encryption methods

D.to require users to own quantum computers in order to send data securely

Ans: B.to create encryption methods that quantum computers cannot crack.

Q9.Why might businesses be interested in using quantum computers?

A.to create graphics for immersive environments

B.to process extremely large data sets

C.to run mobile apps more quickly

D.to solve Intractable problems

Ans: D.to solve Intractable problems.

Q10.What is a current concern regarding the advancement of quantum computing?

A.Existing cryptography may be easily cracked.

B.Steering qubits towards desired states will introduce bias.

C.Computers will replace human in all decision-making tasks.

D.Algorithmic trading may cause stock market instability.

Ans: B.Steering qubits towards desired states will introduce bias.

Q11.Which technology will quantum computing impact most significantly?

A.Agile

B.DevOps

C.Extended Reality

D. Artificial intelligence

Ans: D. Artificial intelligence.

Q12.How could quantum computing benefit the Financial Service Industry?

A.by determining future value of crypto-currencies

B.by predicting market activities months in advance

C.by enabling complex mode to optimize portfolios

D.by guaranteeing double returns for fund managers ns for fund managers

Ans: A.by determining future value of crypto-currencies.

Q13.Which problem is more classical effectively solved using qantum computing rather than classical computer?

A.multiplication of integers

B.sorting elements on a list

C.rearranging terms in equations

D.large database searches

Ans: A. multiplication of integers

## Q14.How can interference benefit a quantum system?

A. by analyzing each of the possible paths one at a time

B. by forcing each qubit to represent a value of either O or 1

C. by helping to reinforce the paths to the best results

D.by preventing qubits from interacting with one another

Ans: A. by analyzing each of the possible paths one at a time.

Q15.A trucking company is expanding its business and recently added 50 new trucks to its fleet delivering to numerous locations. The company is facing some challenges managing the new additions. Which of the company’s problems could be solved more easily using quantum computing?

A. automating the inventory operations to handle the expansion

B. tracking to ensure that shipments are sent and received on time

C. routing the trucks effectively to optimize fuel consumption data.

D. collecting travel data from all the company’s trucks in real-time

Ans: C. routing the trucks effectively to optimize fuel consumption data.

Q16.How will quantum computing affect artificial intelligence applications?

A. Artificial Intelligence will evolve to become self-aware.

B.artificial intelligence will instantly solve optimization problems.

C. Blas in machine learning will be completely eliminated.

D. Machine learning algorithms will become much faster.

Ans : D. Machine learning algorithms will become much faster.

Q17. Which part of the drug discovery life cycle can quantum computing impact the most?

A. regulatory approval

B.molecular simulation

C. laboratory testing

D. clinical trials

Ans: A. regulatory approval.

Q18. What is a current concern regarding the advancement of quantum computing?

A. Steering qubits towards desired states will introduce bias.

B. Computers will replace humans in all decision-making tasks

C. Algorithmic trading may cause stock market instability

D. Existing cryptography may be easily cracked

Ans: A. Steering qubits towards desired states will introduce bias.

Q19. Which element of Accenture’s applied quantum computing strategy directly delivers value to clients?

A.researching new materials for super-conductivity

B.hosting a data center for quantum computers.

C. Solving real-world needs with industry knowledge

D. developing quantum computing chip architectures

Ans: C. Solving real-world needs with industry knowledge.

Q20. Given a list of cities on a map and the distances between them, what does the “Traveling Salesman Problem” attempt to determine?

A. the shortest continuous route traveling through all cities

B. the longitude and latitude of each of the cities

C. the two cities that are farthest apart from one another

D. the average distance between all combinations of cities

Ans: A. the shortest continuous route traveling through all cities.

Q21. Which statement describes the current availability of quantum computers?

A. They are owned by a few companies, but available to many.

B. They will be developed for home installation within the next decade.

C. They are widely available and affordable in consumer retail stores.

D. They are currently only available on certain mobile devices.

Ans: A. They are owned by a few companies, but available to many.

Q22. Why is quantum computing potentially a better fit for weather forecasting than classical computers?

A. it can store extensive data for better pattern recognition.

B.It can be easily installed at locations around the globe.

C.It can function efficiently when stored at high temperatures.

D.It can perform advanced simulations more efficiently

Ans: D.It can perform advanced simulations more efficiently.

Q23. What is a barrier to entry preventing quantum computing hardware from becoming more widely available?

A.They are limited to solving only intractable problems.

B. They cost companies millions of dollars to manufacture.

C. They are not expected to save data for more than a year.

D. They need to be kept at a constant temperature of 0°C

Ans: B. They cost companies millions of dollars to manufacture.

Q24. What is meant by “applied quantum computing?”

A. processing simple mathematical functions more quickly

B.installing quantum computers directly in company offices

C. building more advanced quantum computing hardware

D. using quantum computers to solve real business problems

Ans: D. using quantum computers to solve real business problems.

Q25. Which term describes the action of a qubit that moves from superposition to 1 or after measurement?

A.collapse

B.decryption

C.switch

D.optimization

Ans: A.collapse.

Q26. What does Accenture recommend quantum computing early adopters do to gain a competitive advantage?

A. Develop a quantum computing strategy as soon as possible.

B. Adopt a “wait-and-see” approach to quantum technology.

C. Re-invest most of their profits into quantum computing.

D. Replace all their classical computers with quantum computers.

Ans: A. Develop a quantum computing strategy as soon as possible.

Q27.How is a collapsed qubit similar to a bit?

A. It can stay in a state of superposition.

B. It has numerous potential paths to follow.

C. It has a single value of either O or 1.

D. It is still dependent on its counterparts.

Ans: C. It has a single value of either O or 1.

Q28. Which problem is more effectively solved using quantum computing rather than classical computers?

A.large database searches

B. multiplication of integers

C. rearranging terms in equations

D. sorting elements on a list

Ans: B. multiplication of integers