Answer:
See the detailed answer in attached file.
Explanation :
Answer:
net force acting on the floor is 100 kN
Explanation:
Given data:
dimension of floor = 2 m \times 0.5 m
we know that
Net force can be calculated as follow
Therefore net force acting on the floor is 100 kN
Answer:
Policies That Influence Entrepreneurship. Four strategies that influence entrepreneurship are the tax system, supervision, start-up costs moreover access to capital businesses, and legal security and property rights. Each policy is considered through the eyepiece of economic investigation.
Loans and reward plans proposed immediately to business people are one way to use tax revenue to arouse business ventures.
Entrepreneurship is inspired by four different factors: economic growth, history, technological advancement, and education. In areas where these parts are present, you can anticipate seeing powerful and constant entrepreneurial extension.
Explanation:
Answer:
public static int average(int j, int k) {
return (int)(( (long)(i) + (long)(j) ) /2 );
}
Explanation:
The above code returns the average of two integer variables
Line 1 of the code declares a method along with 2 variables
Method declared: average of integer data type
Variables: j and k of type integer, respectively
Line 2 calculates the average of the two variables and returns the value of the average.
The first of two integers to average is j
The second of two integers to average is k
The last parameter ensures average using (j+k)/2
Answer:
Attached below are the sketches
answer :
c) G(s) = 100 / ( s + 100 )
d) y'(t) + 100Y(s) = 100 X(s)
e) g(t) = e^-100t u(t)
Explanation:
a) Sketch the bode plot
The filter here is a low pass filter
b) Sketch the s-plane
attached below. pole ( s ) is at 100
c) write the transfer function of the filter
Transfer function ; G(s) = 100 / ( s + 100 )
d) write the differential equation
Y(s) / X(s) = 100 / s + 100
Y(s) [ s + 100 ] = 100 X(s)
= sY(s) + 100Y = 100 X(s)
∴ differential equation = y'(t) + 100Y(s) = 100 X(s)
e) write out the unforced transient response
g(t) = e^-100t u(t)
f) write out the frequency response
attached below
