a) Free-body diagram of a mass m acting under a force F; (b) A model... | Download Scientific Diagram
![10th Grade Physics: Springs] How do I calculate the final spring force, and draw a free body diagram with it? : r/HomeworkHelp 10th Grade Physics: Springs] How do I calculate the final spring force, and draw a free body diagram with it? : r/HomeworkHelp](https://i.redd.it/mzrub4xz4ml61.jpg)
10th Grade Physics: Springs] How do I calculate the final spring force, and draw a free body diagram with it? : r/HomeworkHelp
![SOLVED: In the figure below, draw a free body diagram for the forces acting on a mass hanging from the bottom of a spring: 3 cm Equilibrium Point Stretching of the spring: SOLVED: In the figure below, draw a free body diagram for the forces acting on a mass hanging from the bottom of a spring: 3 cm Equilibrium Point Stretching of the spring:](https://cdn.numerade.com/ask_images/853226aa47e844bd9b5df3bfd3e381bf.jpg)
SOLVED: In the figure below, draw a free body diagram for the forces acting on a mass hanging from the bottom of a spring: 3 cm Equilibrium Point Stretching of the spring:
![The two springs are identical, with unstretched lengths 250 \ mm and spring constants k=1200 \ N/m. a) Draw the free-body diagram of block A. b) Draw the free-body diagram of block The two springs are identical, with unstretched lengths 250 \ mm and spring constants k=1200 \ N/m. a) Draw the free-body diagram of block A. b) Draw the free-body diagram of block](https://homework.study.com/cimages/multimages/16/free-body_5-58695016941778132402.png)
The two springs are identical, with unstretched lengths 250 \ mm and spring constants k=1200 \ N/m. a) Draw the free-body diagram of block A. b) Draw the free-body diagram of block
![Consider the following spring-mass-damper mechanical system. The input is given by f(t), and the output is y(t). a. Use free body diagram to conduct force analysis. b. Use Newton's Law of Motion Consider the following spring-mass-damper mechanical system. The input is given by f(t), and the output is y(t). a. Use free body diagram to conduct force analysis. b. Use Newton's Law of Motion](https://homework.study.com/cimages/multimages/16/1116100021568633254574.png)