classical physics

Examples (20)

• Newton's laws are a cornerstone of classical physics.
• Before the 20th century, all scientific understanding was based on classical physics.
• The first-year curriculum covers the fundamentals of classical physics.
• Newton's laws are fundamental to classical physics.
• At the atomic level, the laws of classical physics break down.
• Quantum mechanics challenged the principles of classical physics.
• Classical physics provides an excellent approximation for macroscopic objects.
• Many engineering principles are derived from classical physics.
• The early 20th century saw a paradigm shift from classical physics to modern physics.
• Students often begin their study of physics with classical physics.
• Engineers rely on the principles of classical physics to build bridges.
• The motion of planets is explained by classical physics.
• Einstein's theories challenged the very foundations of classical physics.
• Electromagnetism is a key component of classical physics.
• While classical physics is deterministic, quantum mechanics is probabilistic.
• The limitations of classical physics became apparent with new discoveries.
• He was studying how thermodynamics connected to classical physics.
• He specialized in the history of classical physics.
• In essence, classical physics describes the world as we perceive it in our everyday lives.
• Understanding classical physics is essential for modern scientific fields.