Respuesta :
Answer:
Coefficient of static friction ,μs = 0.15
Coefficient of kinetic friction ,μk = 0.089
Explanation:
Given that
m = 1.7 kg
Static friction :
The force required to start the motion F= 2.6 N
We know that when book is in rest condition then static friction force act on it.
We know that the maximum value of the static friction force
fr = μ m g
At limiting condition
F= fr
2.6 = μ m g
2.6 = μ x 1.7 x 9.81
[tex]\mu=\dfrac{2.6}{1.7\times 9.81}[/tex]
μ = 0.15
Kinetic friction :
F= 1.5 N
When the book is in moving condition then kinetic friction force act on it.
We know that the maximum value of the kinetic friction force
fr = μ m g
F= fr
= μ m g
1.5 = μ x 1.7 x 9.81
[tex]\mu=\dfrac{1.5}{1.7\times 9.81}[/tex]
μ = 0.089
Coefficient of static friction ,μs = 0.15
Coefficient of kinetic friction ,μk = 0.089
Answer:
Explanation:
mass of book, m = 1.7 kg
Force to start the book, F = 2.6 N
Force to slide the book, f' = 1.5 N
Let μs and μk is the coefficient of static friction and kinetic friction, respectively.
The force required to just start to slide the book is due to the static friction force.
Let N be the normal reaction
N = mg = 1.7 x 9.8 = 16.66 N
According to the laws of friction
F = μs x N
2.6 = μs x 16.66
μs = 0.156
According to the laws of friction
F' = μk x N
1.5 = μk x 16.66
μk = 0.09
