Solving Physics Problems with the Box and Banana

In summary, the conversation is about calculating the friction force exerted on a box of bananas resting on a horizontal surface, given the coefficient of static and kinetic friction. It also discusses the minimum horizontal force needed to start and keep the box in motion, as well as the acceleration of the box when a specific force is applied. The summary also includes the relevant equations and attempts at solving the problems.
  • #1
EvanQ
56
0

Homework Statement



A box of bananas weighing 40.0N rests on a horizontal surface. The coefficient of static friction between the box and the surface is 0.40 and the coefficient of kinetic friction is 0.20.

a) If no horizontal force is applied to the box and the box is at rest, how large is the friction force exerted on the box?

b) What is the magnitude of the friction force if a monkey applies a horizontal force of 6.0N to the box and the box is initially at rest?

c) What minimum horizontal force must the monkey apply to start the box in motion?

d) What minimum horizontal force must the monkey apply to keep the box moving at constant velocity once it has been started?

e) If the monkey applies a horizontal force of 18.0N, what is the magnitude of the friction force ?

f) If the monkey applies a horizontal force of 18.0N, what is the box's acceleration?


Homework Equations



F=ma

The Attempt at a Solution



a) if there is no force applied to the box, the friction force exerted is 0N? or would i times the coefficients of both static and kinetic energy with the weight of the box?

b) just the 6N applied? or the (static friction coefficient x weight) - 6N?

c) 40N x coefficient of static = 16N

d) 40N x coeff of kinetic = 8N

e) remains 8N

f) having a major mind blank over this one.

so yeh, just needing some pointers for parts a, b and f.
thanks in advance.
 
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  • #2
just got part b correct, only need help with part a and f thanks.
 
  • #3
For a you're right, there is 0 frictional force.

For f... what is the net force acting in the horizontal direction while the box is moving? Use this and F=ma to get the acceleration.
 
  • #4
18N to the right, minus 8N to the left (kinetic friction x weight) = 10N to the right.

F=ma
10=40a
a=0.25m/s?

or am i using the wrong value for m?
 
  • #5
EvanQ said:
18N to the right, minus 8N to the left (kinetic friction x weight) = 10N to the right.

F=ma
10=40a
a=0.25m/s?

or am i using the wrong value for m?

The m is wrong. 40N is the weight not the mass. Get the mass from W = mg.
 
  • #6
once again on my final submission :p, so could you please just verify this is correct for me>

F=ma
10=4.08a
a=2.45m/s

thanks
 
  • #7
EvanQ said:
once again on my final submission :p, so could you please just verify this is correct for me>

F=ma
10=4.08a
a=2.45m/s

thanks

Yup, only the units are wrong. :wink: 2.45m/s^2
 
  • #8
sweet thanks :)
 

1. How does the box and banana method help in solving physics problems?

The box and banana method is a problem-solving strategy used in physics to break down complex problems into smaller, more manageable parts. It involves drawing a box around the main object or system in the problem, and then drawing a banana around the forces acting on that object or system. This helps to clearly visualize and understand the forces at play, making it easier to solve the problem.

2. Can the box and banana method be used for all types of physics problems?

Yes, the box and banana method can be used to solve a wide range of physics problems, including problems involving forces, motion, energy, and more. It is a versatile problem-solving tool that can be applied to many different scenarios.

3. Is the box and banana method a reliable way to solve physics problems?

The box and banana method is a widely used and accepted method for solving physics problems. It has been proven to be effective in breaking down complex problems and helping students better understand the underlying concepts. However, like any problem-solving strategy, it may not work for every individual and may require some practice and adaptation.

4. Can the box and banana method be used for group problem-solving?

Yes, the box and banana method can be used for group problem-solving. In fact, it can be a helpful tool for collaboration as it allows individuals to clearly communicate their ideas and thought process. It also encourages group members to work together and build upon each other's ideas.

5. Are there any drawbacks to using the box and banana method?

While the box and banana method can be a useful problem-solving strategy, it may not be the best approach for every problem. Some problems may require a different method or may not be well-suited for this approach. Additionally, it is important to remember that the box and banana method is just one tool in a larger problem-solving toolkit and should not be relied on as the only method for solving physics problems.

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