Classical Physics Forum

Join expert classical physics discussion on the principles developed before the rise of relativity and quantum mechanics. Including mechanics, electrodynamics, thermodynamics, optics.
Replies
99
Views
12K
Replies
20
Views
387
Replies
9
Views
101
Replies
15
Views
297
Replies
10
Views
146
Replies
7
Views
410
2
Replies
45
Views
578
Replies
6
Views
148
Replies
5
Views
193
Replies
12
Views
167
Replies
4
Views
180
Replies
9
Views
240
Replies
4
Views
138
Replies
12
Views
272
Replies
4
Views
282
Replies
3
Views
316
Replies
18
Views
395
Replies
61
Views
877
Replies
6
Views
471
Replies
12
Views
1K
Replies
51
Views
1K
Replies
5
Views
287
Replies
3
Views
309
Replies
2
Views
292
Replies
26
Views
524
Replies
10
Views
439
Replies
31
Views
754
Replies
13
Views
369
Replies
16
Views
575
Replies
10
Views
540
Replies
8
Views
426
Replies
18
Views
521
Replies
28
Views
557
Replies
4
Views
369
Replies
10
Views
818
Replies
2
Views
558
Replies
42
Views
1K
Replies
7
Views
673
Replies
7
Views
488
Replies
7
Views
448
Replies
28
Views
755
Replies
17
Views
623
Replies
6
Views
481
Replies
7
Views
502
Replies
47
Views
1K
Replies
10
Views
579
Replies
1
Views
508
3
Replies
85
Views
4K
Replies
21
Views
918
Replies
7
Views
750
Replies
9
Views
761
Replies
4
Views
517
Replies
14
Views
558

Classical Physics

Welcome to the Classical Physics forum!

Classical physics refers to the traditional theories and principles of physics developed before the advent of quantum mechanics and relativity in the early 20th century. It includes classical mechanics, electromagnetism, and thermodynamics.

Classical mechanics, formulated by Newton, describes the motion of objects and the forces acting upon them. Maxwell's equations encompass classical electromagnetism, elucidating the behavior of electric and magnetic fields. Thermodynamics, developed by Carnot and others, focuses on the principles governing heat, work, and energy transfer in macroscopic systems.

While highly successful in explaining everyday phenomena, classical physics encountered limitations at extreme scales, leading to the development of quantum mechanics and relativity to describe the behavior of particles at the atomic and cosmic levels, respectively.
Back
Top