Ahouse painter stands 3.0 m above the ground on a 5.0−m-long ladder that leans against the wall at a point 4.7 m above the ground. the painter weighs 765 n and the ladder weighs 138 n. assuming no friction between the house and the upper end of the ladder, find the force of friction that the driveway exerts on the bottom of the ladder.

fs =202.3N

Explanation:

The equilibrium equation are:

∑Fx=0  

∑Fy=0

∑M = 0  

Where:

∑Fx :algebraic sum of forces in the direction of the x-axis  

∑Fy: algebraic sum of forces in the direction of the y-axis  

∑M : Algebraic sum of moments

M = F*d  

M : moment  ( N*m)  

F : Force ( N)  

d :Perpendicular distance of the force to the point  ( meters )

Data

W₁ =138 N  :weight of the ladder

W₂ =765 N : weight of the house painter

L = 5 m : ladder length

h =  4.7 m : ladder height

µ = 0 : coefficient of friction between the ladder and the wall

θ  : angle that makes  the  ladder  with the floor

sinθ = h/L = 4.7 m / 5 m

θ =sin⁻¹(4.7 / 5)

θ = 70.05°

Forces acting on the ladder

W₁ = 138 N :Weight  of the ladder (vertical downward)

W₂ =765 N  : Weight of the fire painter(vertical downward)  

FN₁ :Normal force that the floor exerts on the ladder (vertical upward)  (point A)

fs : friction force that the floor exerts on the ladder (horizontal and opposite the movement )(point A)  

FN₂ :  Normal Force that the wall exerts on the ladder ( horizontal and opposite to friction force between the floor and the ladder)

Calculation of the distances of the forces at the point A (contact point of the ladder on the floor)

d₁ =2.5 *cos 70.05°   = 0.853 m: Horizontal distance from W₁ to the point A

d₂ = 3 / tan 70.05°  = 1.089 m  : Horizontal distance from W₂ to the point A

d₃ = 4.7 m : Vertical distance from FN₂ to the point A

Equilibrium equation of the moments at the point A  (contact point of the ladder with the floor)  

∑MA = 0  

FN₂(d₃) - W₁( d₁) - W₂(d₂) = 0

FN₂(d₃) = W₁(d₁) + W₂(d₂)

FN₂( 4.7) = ( 138 )(  0.853) + (765)( 1.089 )

FN₂( 4.7) = 117.714 + 833.085

FN₂ = (950.799) / ( 4.7)  

FN₂ =202.3 N : Force exerted on the ladder by the wall , horizontal and opposite to friction force between the floor and the ladder

Equilibrium equation of forces in x-direction

∑Fx=0

FN₂ - fs = 0

202.3 N - fs = 0

202.3 N =  fs

fs  = 202.3 N : force of friction that the driveway exerts on the bottom of the ladder

increasing transnational kinetic energy. because the transnational kinetic energy formula consists of only two variables, mass and velocity, increasing one of those properties is the only way to increase an object's transnational kinetic energy. increases to mass and velocity, however, do not have the same impact.

snell's law

refractve index = sin incidence / sin refraction