Respuesta :
Answer:
The coefficient of friction is 0.242.
Explanation:
Given
Mass on the table is, [tex]m_1 = 4.1[/tex] kg
Hanging mass is, [tex]m_2 = 2.7[/tex] kg
Displacement of the masses is, [tex]s = 0.355[/tex] m
Initial velocity of the masses is, [tex]u=0[/tex] m/s
Final velocity of the masses is, [tex]v = 1.32[/tex] m/s
Acceleration by gravity is [tex]g = 9.8[/tex] m/s².
The acceleration of the system is calculated using equation of motion and is given as:
[tex]a=\frac{v^2-u^2}{2s}\\a=\frac{1.32^2-0}{2\times 0.355}=2.46\ m/s^2[/tex]
Therefore, [tex]a = 2.46[/tex] m/s²
Applying Newton's second law on the hanging mass, we get:
[tex]m_2\times g-T = m_2\times a\\T = m_2\times (g - a)\\T=2.7\times(9.8 - 2.46)\\T = 19.82\ N[/tex]
Now, applying Newton's second law on the mass on table, we get:
[tex]T - F_f = m_1\times a\\F_f =T - m_1\times a\\F_f = 19.82 -4.1\times 2.46\\F_f = 9.73\ N[/tex]
The normal force of the table on the mass is given as:
[tex]N=m_1\times g=4.1\times 9.8=40.18\ N[/tex]
The coefficient of friction is the ratio of the frictional force and the normal force and is given as:
[tex]\mu=\frac{F_f}{N}=\frac{9.73}{40.18}=0.242[/tex]
Therefore, the coefficient of friction between the mass on the table and the table is 0.242.
