To solve this problem it is necessary to apply the definition given for the change in the momentum.
Momentum can be defined as the change of Force due to time, that is to say
L = F*t
Where,
F = Force
t = Time
At the same time momentum can be defined as
L = mv
Where,
m = mass
v = velocity
For our values we have that
t = 1sec
v = 6.0m/s
m = 0.10Kg
Equation both equations we have that
[tex]F*t = mv \\F = \frac{mv}{t}[/tex]
Replacing with our values we have that
[tex]F = \frac{(0.1)(6)}{1}\\F = 0.6N[/tex]
Therefore if we have 30 ball in one second the TOTAL force would be
[tex]F_{net} = 30*0.6\\F_{net} = 18N[/tex]
Pressure can be defined as the Force in function of Area, that s
[tex]P = \frac{F}{A} \\P = \frac{18}{3*6}\\P = 1Pa[/tex]
Therefore the average pressure exerted by the snowballs on the wall if 30 snowballs hit the wall each second is 1 Pa.
