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Get Answers to all your Questions
Direction: Read the passage and answer the question
Title: "The Enigma of Quantum Mechanics"
Quantum mechanics, the branch of physics that explores the behaviour of particles at the smallest scales, has long baffled and intrigued scientists. Its principles challenge our classical understanding of reality, delving into the realm of probabilities and uncertainties.
As particles delve into the quantum realm, they blur the lines between particle and wave, existing in states of superposition. This phenomenon, exemplified by Schrödinger's famous thought experiment involving a cat in a sealed box, illustrates the strange and counterintuitive nature of quantum physics.
Entanglement, another enigmatic aspect of quantum mechanics, allows particles to instantaneously influence one another regardless of distance. This seemingly faster-than-light communication, while not practical for everyday applications, has profound implications for the development of quantum technologies.
Moreover, the uncertainty principle, articulated by Heisenberg, posits that the more precisely we know the position of a particle, the less accurately we can determine its momentum, and vice versa. This inherent limitation challenges the notion of a deterministic universe, introducing an element of fundamental uncertainty.
Despite its perplexities, quantum mechanics underpins a wide range of technologies, from lasers and transistors to MRI machines. Its applications continue to expand, with the promise of quantum computing revolutionising fields from cryptography to material science.
As scientists delve deeper into the quantum realm, new discoveries and paradoxes continue to emerge. The enigma of quantum mechanics stands as a testament to the boundless mysteries that await our exploration in the ever-evolving landscape of science.
Question:
What is a likely outcome for the field of quantum computing based on the passage?
Quantum computing will eventually become obsolete and replaced by classical computing.
Quantum computing will have a transformative impact on various fields.
Quantum computing will remain a theoretical concept without practical applications.
Quantum computing will primarily focus on the development of lasers.
Answers (1)
The passage states that the promise of quantum computing is to revolutionise fields from cryptography to material science, indicating its potential transformative impact.
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