How Is the Coefficient of Kinetic Friction Calculated in a Spring-Block System?

Click For Summary
SUMMARY

The coefficient of kinetic friction (µk) in a spring-block system can be calculated using the equation derived from the balance of forces at the point where the block stops. Given a spring constant (k) of 50 N/m, a block mass (M) of 5 kg, and an initial stretch distance (di) of 56 cm, the correct formula is µk = (k * x) / (m * g), where x is the final stretch of the spring and g is the acceleration due to gravity (9.81 m/s²). The calculated value of µk is 0.0603, but discrepancies may arise from rounding errors or unit inconsistencies. Ensuring precise calculations and consistent units is essential for accuracy.

PREREQUISITES
  • Understanding of Hooke's Law and spring constants
  • Knowledge of basic physics concepts such as forces and friction
  • Familiarity with unit conversions (N/m to kg·m/s²)
  • Ability to perform calculations involving potential energy and work
NEXT STEPS
  • Review the principles of Hooke's Law and its applications in mechanics
  • Learn about energy conservation in mechanical systems
  • Study the effects of friction on motion and how to calculate it
  • Practice solving problems involving spring forces and kinetic friction
USEFUL FOR

Students and professionals in physics, mechanical engineering, and anyone interested in understanding the dynamics of spring-block systems and frictional forces.

Naeem
Messages
193
Reaction score
0
Q. A relaxed spring with spring constant k = 50 N/m is stretched a distance di = 56 cm and held there. A block of mass M = 5 kg is attached to the spring. The spring is then released from rest and contracts, dragging the block across a rough horizontal floor until it stops without passing through the relaxed position, at which point the spring is stretched by an amount df = di/9.


What is the coefficient of kinetic friction µk between the block and the floor?

Here is what I did:

At the point the block stops the spring force is equal to the force of friction.

Fspring = Ffriction

k*x = Uk * m * g

Uk = (K * x )/ m* g

Uk = 0.0603, which the computer says is wrong.
 
Physics news on Phys.org
Naeem said:
What is the coefficient of kinetic friction µk between the block and the floor?
Note that they want the coefficient of kinetic friction.

Here is what I did:

At the point the block stops the spring force is equal to the force of friction.
Yes, when it stops the static friction will equal the spring force. But that's not what they want.

Instead, realize that some spring potential energy is transformed into work against friction.
 


Your approach to solving this problem is correct. However, there may be a small error in your calculation or rounding. I recommend double-checking your calculations and making sure to use the correct values for k, m, and g. Also, make sure to use the same units for all quantities (e.g. if k is in N/m, make sure m is in kg and g is in m/s^2). It is also possible that the computer's answer is slightly different due to rounding or significant figures. Overall, your approach is correct and you should be able to arrive at the correct answer with some careful calculations and attention to units.
 

Similar threads

How can I determine the instant the block overcomes static friction?
  • · Replies 61 ·
3
Replies
61
Views
4K
Dynamics of a Block on top of a slab with friction between them
  • · Replies 33 ·
2
Replies
33
Views
2K
Spring and block on an inclined plane
  • · Replies 27 ·
Replies
27
Views
11K
Time period of SHM & Energy conservation in pulley-spring-block system
  • · Replies 24 ·
Replies
24
Views
4K
A block dropping onto a spring system
  • · Replies 58 ·
2
Replies
58
Views
4K
Problem of spring block system: force vs conservation of energy
  • · Replies 20 ·
Replies
20
Views
4K
How to solve a differential equation for a mass-spring oscillator?
  • · Replies 2 ·
Replies
2
Views
2K
A block of mass m is dropped onto the top of a vertical spring....
  • · Replies 8 ·
Replies
8
Views
6K
Finding the Coefficient of Friction in a Spring-Block Incline System
  • · Replies 2 ·
Replies
2
Views
2K
How Do Friction and Spring Constants Affect Block Velocities?
  • · Replies 16 ·
Replies
16
Views
3K