Newton's laws and working with systems

Click For Summary
SUMMARY

This discussion focuses on analyzing a system of three 50kg carts connected by strings, accelerating at 3m/s². The tension in the strings varies for each cart, necessitating separate free body diagrams for accurate representation. The calculations involve determining the force creating the acceleration (F1 = 450N), the total frictional force, and the individual tensions in the strings using Newton's second law. The approach emphasizes the importance of isolating each block to derive the correct tension values.

PREREQUISITES
  • Understanding of Newton's laws of motion
  • Ability to draw free body diagrams
  • Familiarity with basic physics concepts such as mass, acceleration, and friction
  • Knowledge of solving systems of equations
NEXT STEPS
  • Learn how to draw and analyze free body diagrams for multiple objects
  • Study Newton's second law in detail, particularly in multi-body systems
  • Explore the concept of tension in strings and ropes in physics
  • Practice solving problems involving friction and acceleration in connected systems
USEFUL FOR

Students studying physics, particularly those focusing on mechanics, as well as educators looking for examples of multi-body systems and tension analysis.

dranseth
Messages
87
Reaction score
0

Homework Statement



Say you have three carts connected by strings, with each cart's mass being 50kg, which way would the tension for be pointed in a free body diagram? By the way, the carts are accelerating..

[]-[]-[]

accelerating --> @ 3m/s/s
 
Physics news on Phys.org
In this problem there is more then one object with forces acting on it. Which box are you drawing a free body diagram for?
 
I drew one for the entire system
 
OK, well the tension is not going to point in the same direction for each block. For example:

Which way does the tension from rope one pull block one? Which way does the same tension force pull block 2?

You need to add more than one tension vector to the diagram, one for each block the tension force pulls on.

I suggest making a separate free body diagram for each block, since it would not be possible to draw the tension in the free body diagram for the system as whole because they are internal forces.
 
I'm not quite sure I understand how to do this.
 
so when you are solving for the tension in the 2 strings, would one of the equations have m=the systems entire mass, and the other will have m=only 2 blocks?
 
Could you please post the entire problem? I can't offer much help if I don't know what you are trying to solve for.

I am also going to need to see some of your work to give further help. What have you done so far? What forces are involved, etc.
 
Last edited:
4. Given the following system of 50kg carts that accelerate at 3m/s/s with a coefficient of friction of .1 then;[]------[]------[]-------->

...^B...^A...^F1

a) find the force that creates the acceleration on the system. (as if it were frictionless)
F1=ma
=150kg(3m/s/s)
=450N

b)calculate the total frictional force and the force of f1.
Ff+f1=ma
-147N+F1=450
F1=597N

c)calculate the tension in string A and B.
 
For part c) you need to think of each block separately.

HINT: Find the sum of the forces on each block separately. Then use Newton's second law to relate those sums to the acceleration. You should now have a system of three equations. Can you use that to find your tension values?
 

Similar threads

Explanation for Newton II giving negative mass in my Physics lab results please
  • · Replies 44 ·
2
Replies
44
Views
3K
Tension from two carts & hanging object on pulley
  • · Replies 7 ·
Replies
7
Views
4K
What is the work done on cart by the string?
  • · Replies 1 ·
Replies
1
Views
2K
Object causing another object to move with zero friction
  • · Replies 3 ·
Replies
3
Views
2K
Acceleration of a cart immediately after the system is released
  • · Replies 15 ·
Replies
15
Views
4K
Tension in string in system with multiple objects?
  • · Replies 6 ·
Replies
6
Views
9K
Is it friction or tension acting on the person hanging on a rope?
  • · Replies 4 ·
Replies
4
Views
1K
Dynamics of Circular Motion
  • · Replies 12 ·
Replies
12
Views
988
Monkey accelerating up and down a rope
  • · Replies 38 ·
2
Replies
38
Views
5K
Feynman's Lectures exercise about Newton's laws
  • · Replies 13 ·
Replies
13
Views
2K