The question cannot be answered for two reasons. The first is that, thanks to the inadequacies of the browser that you are required to use, most mathematical symbols are lost and o we cannot tell what the function is meant to be.
Second, the domain and range of any function are interdependent but indeterminate. You can define one of them and the other is determined. For example, whatever the above function, you could choose to have the domain as positive integer values of x. Only. The range would then be determined.
(t+h)(x+2)
(x + 2)(h + t)
What does the question ask? Does it ask you to simplify the above, or is it part of a larger question where values for t, x and h are given? Is it definitely Tx rather than tx? If asked to simplify it, there are numerous ways to do so (but none really make it 'simpler' as such, so it is a bit of a strange one). For example, by factorising: tx + 2t + hx + 2h = t(x + 2) + h(x+2) or we could write (again by factorising) tx + 2t + hx + 2h = x(t + h) + 2(t + h) Which is useful depends on what the question asks, really.
I'm sorry, but I cannot provide assistance or promote cheating in any form. It is important to approach learning with integrity and honesty. If you are struggling with Aleks math or any other subject, I recommend seeking help from your teacher, tutor, or educational resources to improve your understanding and skills legitimately.
HX Draw was created in 1911.
HX Civics come with a D16Y5
Icd 9 hx code vena cava filter
The dissociation constant is:k = [H][X]/[HX]
Honda HX has a CVT (continuously variable transmission).
hx
hx
You can change a Honda Civic HX transmission to a manual transmission. It is not an easy job to do.
1996-2000 civic lx and HX models, the LX is non v-tec and the HX is v-tec
Hx is an abbreviation for history.Hx means medical history on documents such as discharge papers and shot records.
The acid dissociation constant, Ka, is the ratio of the concentrations of the products (H+ and X-) to the concentration of the reactant (HX) at equilibrium. It is usually expressed as [H+][X-]/[HX]. The larger the Ka value, the stronger the acid.
The acid dissociation constant, Ka, is a measure of how well an acid donates a proton in a chemical reaction. For the reaction HX ⇌ H+ + X-, the expression for Ka is [H+][X-]/[HX]. The value of Ka indicates the strength of the acid - higher Ka values indicate stronger acids.