## What is meant by “applied quantum computing?”

a) using quantum computers to solve real business problems

b) building more advanced quantum computing hardware

c) processing simple mathematical functions more quickly

d) installing quantum computers directly in company offices.

#### “Applied quantum computing” refers to the practical use of quantum computing technology to solve real-world problems, particularly in the fields of science, engineering, and business.

### Hence correct answer is option a) using quantum computers to solve real business problems.

“Applied quantum computing” refers to the practical use of quantum computing technology to solve real-world problems, particularly in the fields of science, engineering, and business.

This involves developing algorithms and applications that can run on quantum computers, which are designed to exploit the unique properties of quantum mechanics to perform certain tasks more efficiently than classical computers.

These tasks might include optimization, simulation, machine learning, cryptography, and more. By applying quantum computing to these problems, it is hoped that significant advancements can be made in fields ranging from drug discovery and materials science to logistics and finance.

Applied quantum computing refers to the use of quantum computing technology to solve real-world problems and perform useful computations. Quantum computing differs from classical computing in that it uses quantum bits, or qubits, which can exist in multiple states at the same time, allowing for the execution of certain algorithms faster than classical computers.

Applied quantum computing can have a wide range of applications in various fields, such as finance, cryptography, drug discovery, and materials science. For example, quantum computers can be used to optimize financial portfolios, factor large numbers for cryptography, simulate chemical reactions for drug discovery, and optimize materials for various applications.

While the field of quantum computing is still in its early stages of development, there is significant interest and investment in this technology from both the public and private sectors. As the technology continues to improve, we can expect to see increased use of applied quantum computing in a variety of industries and fields.

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### FAQs Applied Quantum Computing:

What is quantum computing?

Quantum computing is a type of computing that uses quantum bits, or qubits, which can exist in multiple states at the same time, allowing for the execution of certain algorithms faster than classical computers.

What is applied quantum computing?

Applied quantum computing refers to the use of quantum computing technology to solve real-world problems and perform useful computations.

What are some applications of applied quantum computing?

Some applications of applied quantum computing include cryptography, optimization, chemistry, machine learning, traffic optimization, weather forecasting, supply chain management, energy optimization, space exploration, and protein folding.

What are the potential benefits of applied quantum computing?

The potential benefits of applied quantum computing include improved security for sensitive data, faster and more efficient decision-making, development of new drugs and materials, faster and more accurate predictions, reduced congestion and improved transportation efficiency, more accurate weather forecasting, reduced waste and improved efficiency, more efficient energy usage and reduced costs, improved planning and reduced risks, and development of new drugs and treatments for various diseases.

How is quantum computing different from classical computing?

Quantum computing differs from classical computing in that it uses qubits, which can exist in multiple states at the same time, whereas classical computing uses bits, which can only exist in one state at a time. This allows quantum computers to perform certain computations faster than classical computers.

Is quantum computing currently being used in practical applications?

While the field of quantum computing is still in its early stages of development, there are already several practical applications of quantum computing being explored, and the potential for even more applications is significant.