SOLUTION: The production cost represented by y,of smartphone devices are equal to the product of computing components(a)and the square of the number of devices(x)added to the product of labo
Algebra.Com
Question 1191628: The production cost represented by y,of smartphone devices are equal to the product of computing components(a)and the square of the number of devices(x)added to the product of labour(b)and number of devices (x)after which savings on reusable material(c)are subtracted.
Write down an equation to represent the production cost(y)in terms of a,x,b and c.
Answer by Theo(13342) (Show Source): You can put this solution on YOUR website!
the equation will be:
y = a * x^2 + b * x - c
a * x^2 represents the product of computing components (a) and the square of the number of devices (x^2)
b * x represents the product of labour (b) and the number of devices (x).
you find the two products and add them together and then you subtract the savings on reusable material (c).
let me know if you have any questions.
theo
RELATED QUESTIONS
Could you solve this problem for me I worked it out somewhat just want to know final... (answered by solver91311)
The income for a company producing electronic components is given by
y= -20x2-50x+200,... (answered by Boreal)
The original price of an smartphone was increased by 25%. A sale brought the price of... (answered by josgarithmetic,ikleyn)
A wireless store owner takes presale orders for a new smartphone and tablet. He gets 390... (answered by Theo)
Allan is analyzing the cost of producing two different products at a Manufacturer.... (answered by josgarithmetic)
If sq. root of x + sq. root of y is equal to sq. root of 45 and x and y are positive... (answered by ikleyn)
There are 1% probability for a hard drive to crash. Therefore, it has two backups and... (answered by ikleyn)
CAN ANY ONE SOLVE IT BY GAUSSIAN ELIMINATION METHOD?
A blending process is to combine... (answered by josgarithmetic)
The sq root of the product of 4 and the number is equal tp that numbers's mulitplied by... (answered by ankor@dixie-net.com)