You have to make an effort.Ad VanderVen said:Homework Statement:: It is given that 0 <A, 0 <a, 0 <b, 0 <c. Under what conditions is then
1-exp (-a * A / (b / c + 1)) greater than zero?
Relevant Equations:: 1-exp (-a * A / (b / c + 1))
I do not know how to proceed.
Ad VanderVen said:$$exp(-a*A/(b/c+1))<1$$
$$ln(-a*A/(b/c+1))<0$$
Yes.Ad VanderVen said:Sorry, You are right. It should be
$$-a*A/(b/c+1)<0$$
and therefore
$$a*A/(b/c+1)>0$$
and because 0<a, 0<b, 0<c, )< A it follows that
$$a*A/(b/c+1)>0$$
is always true.
Am I correct?
A function is considered to be larger than zero when its output or y-value is greater than zero for all possible inputs or x-values within its domain.
To determine where a function is larger than zero, you can graph the function and look for regions where the graph is above the x-axis. Alternatively, you can set the function equal to zero and solve for the x-values that make the function equal to or greater than zero.
Yes, a function can be larger than zero at multiple points. This means that there are multiple x-values for which the function's output is greater than zero.
If a function is never larger than zero, it means that its output or y-values are always equal to or less than zero for all possible inputs or x-values within its domain. In other words, the function never crosses or touches the x-axis.
In real-world applications, the concept of a function being larger than zero can be used to find the minimum value of a quantity or to determine when a certain condition is met. For example, in economics, a business may use this concept to determine the minimum number of products they need to sell in order to make a profit.