Answer:
(a)Look at the block free body diagram in the attached graphic
(b) a = 3.05 m/s²
(c)
Step-by-step explanation:
Conceptual analysis
We apply Newton's second law:
∑F = m*a (Formula 1)
∑F : algebraic sum of the forces in Newton (N)
m : mass in kilograms (kg)
a : acceleration in meters over second square (m/s²)
Data:
θ = 18.1°
g = 9.81 m/s² : acceleration due to gravity
μk = 0
X component of weight
We calculate the weight component parallel to the displacement of the box:
We define the x-axis in the direction of the inclined plane , 18.1° to the horizontal.
W= m*g : Block weight
Wx= Wsin θ= m*g*sin 18.1°= (9.8 * sen18.1° )*m
Problem development
Look at the block free body diagram in the attached graphic
We apply the formula (1)
∑Fx = m*ax , ax=a
Wx= m*a
(9.8*sin 18.1°) *m = m*a : we divide by m on both sides of the equation
9.8*sin 18.1° = a
a = 3.05 m/s²
Kinematics of the block
Because the block moves with uniformly accelerated movement we apply the following formula:
vf²=v₀²+2*a*d Formula (2)
Where:
d:displacement in meters (m)
t : time in seconds (s)
v₀: initial speed in m/s
vf: final speed in m/s
a: acceleration in m/s²
Data
d= 2.85 m
v₀= 0
a = 3.05 m/s²
We replace the data in the formula (2)
vf²=v₀²+2*a*d
vf²=0+(2)(3.05)(2.85)
