filmov
tv
Simple Harmonic Motion (9 of 16): Hooke's Law, Example Problems
Показать описание
This video goes over several different problems for Hooke's law and how to calculate the spring constant. Hooke's states that the force needed to extend or compress a spring by some distance is directly proportional to that distance. The force and the extension are directly proportional to each other. In other words, the greater the force the greater the extension.
The law is named after 17th-century British physicist Robert Hooke. He first stated the law in 1676. The spring constant (k) describes the stiffness of a spring. Every spring has its own value for the spring constant. The higher the spring constant the greater the force is needed to stretch the spring. The SI unit for the spring constant is Newton per meter (N/m).
Social Media for Step by Step Science:
Support my channel by doing all of the following:
(1) Subscribe to get all my excellent physics, chemistry and math videos.
(2) Give me a thumbs up for this video.
(3) Leave me a nice positive comment.
(4) Share is Caring, sharing this video with all of your friends.
Chapters
00:00 Hooke's Law, Example Problems
00:40 Review Hooke's Law
02:00 Example No. 1
03:20 Example No. 2
07:25 Example No. 3
The law is named after 17th-century British physicist Robert Hooke. He first stated the law in 1676. The spring constant (k) describes the stiffness of a spring. Every spring has its own value for the spring constant. The higher the spring constant the greater the force is needed to stretch the spring. The SI unit for the spring constant is Newton per meter (N/m).
Social Media for Step by Step Science:
Support my channel by doing all of the following:
(1) Subscribe to get all my excellent physics, chemistry and math videos.
(2) Give me a thumbs up for this video.
(3) Leave me a nice positive comment.
(4) Share is Caring, sharing this video with all of your friends.
Chapters
00:00 Hooke's Law, Example Problems
00:40 Review Hooke's Law
02:00 Example No. 1
03:20 Example No. 2
07:25 Example No. 3
0:16:25
SHM (Simple Harmonic Motion) - A-level Physics
0:00:25
Simple Harmonic Motion
0:22:36
oscillatory motion. lesson 9. energy in simple harmonic motion
0:09:26
Simple Harmonic Motion (9 of 16): Hooke's Law, Example Problems
0:26:25
The Simple Pendulum
0:11:31
Simple Harmonic Motion | Displacement Equation | Questions 9 | Waves And Oscillations
0:09:11
Simple Harmonic Motion: Crash Course Physics #16
0:25:25
Class 10 - Physics - Chapter 10 - Lecture 1 - 10.1 Simple Harmonic Motion (SHM) - Allied Schools
0:08:27
SHM 20: JEE NEET PHYSICS
0:07:59
Physics CH 16.1 Simple Harmonic Motion with Damping (9 of 20) General Solution
1:29:07
SP015 Choter 9 Simple Harmonic Motion Part I
0:08:05
Simple Harmonic Motion
0:17:12
Simple Harmonic Motion Lecture-9
0:13:11
Question 1 [LEPAK Chapter 9: Simple Harmonic Motion]
0:59:27
TUTORIAL 9: SIMPLE HARMONIC MOTION
0:23:22
What is Simple Harmonic Motion? | Motion of Mass Attached Spring by Salman Afzal #Haytham Academy
1:13:33
CHAPTER 9 : SIMPLE HARMONIC MOTION
0:05:54
Physics 16 Simple Harmonic Motion (9 of 19) Trig Equations w/ Phase Angle
0:08:57
Introduction to Simple Harmonic Motion, Periodic and Oscillatory Motion
0:04:32
SP015 SIMPLE HARMONIC MOTION 9 2
0:00:14
PHYS 110L exp. 9 - Simple Harmonic Motion
0:43:30
Chapter 9: Simple Harmonic Motion
0:01:00
Longitudinal and transverse wave I Science Experiment #shorts #scienceexperiment #physics #ashusir
0:09:45
Simple harmonic motion - part 9 - free oscillations.
Комментарии