Understanding Quantum Computers

In decimal form

In binary form

In hexadecimal form

In quantum states

They disappear and reappear randomly

They spin in all directions simultaneously

They spin in one direction only

They remain stationary

They use classical bits

They require no energy to operate

They perform calculations sequentially

They can perform many calculations simultaneously

Because they need to be isolated to maintain quantum coherence

Because they consume too much power

Because they are too expensive to produce

Because they require a lot of space

It becomes more stable

It speeds up computations

It becomes larger

It loses its quantum properties

A way to increase computation speed

A technique to cool down quantum systems

A method to store data in quantum computers

A process where particles move through barriers

High temperatures

Constant interaction with the environment

Continuous power supply

Isolation from all interactions

They will replace all classical computers

They will perform computations faster than the age of the universe

They will be used only for scientific research

They will be cheaper than classical computers

They are optimistic about rapid development

They are skeptical about near-term breakthroughs

They believe quantum computers are already fully developed

They think quantum computers are unnecessary

They think breakthroughs are irrelevant

They believe breakthroughs are impossible

They are uncertain and would act if they knew

They have a clear prediction