menu
Qamnty
Login
Register
My account
Edit my Profile
Private messages
My favorites
Which of the following describes the end behavior of y=-x^2+bx+c as x approaches either positive or negative infinity?
Ask a Question
Questions
Unanswered
Tags
Ask a Question
Which of the following describes the end behavior of y=-x^2+bx+c as x approaches either positive or negative infinity?
asked
Jun 1, 2018
228k
views
2
votes
Which of the following describes the end behavior of y=-x^2+bx+c as x approaches either positive or negative infinity?
Mathematics
high-school
Aivar Paalberg
asked
by
Aivar Paalberg
8.3k
points
answer
comment
share this
share
0 Comments
Please
log in
or
register
to add a comment.
Please
log in
or
register
to answer this question.
1
Answer
2
votes
y=ax^2+bx+c
a is leading coefient
if it is negative, then the parabola opens down
if it is positive, then the parabola opens up
y=-x^2+x+c
so negative, parabola opens down
as x approaches negative or positive inifnity, y approaches negative infinity
Alwin Doss
answered
Jun 5, 2018
by
Alwin Doss
8.0k
points
ask related question
comment
share this
0 Comments
Please
log in
or
register
to add a comment.
← Prev Question
Next Question →
No related questions found
Ask a Question
Welcome to Qamnty — a place to ask, share, and grow together. Join our community and get real answers from real people.
Categories
All categories
Mathematics
(3.7m)
History
(955k)
English
(903k)
Biology
(716k)
Chemistry
(440k)
Physics
(405k)
Social Studies
(564k)
Advanced Placement
(27.5k)
SAT
(19.1k)
Geography
(146k)
Health
(283k)
Arts
(107k)
Business
(468k)
Computers & Tech
(195k)
French
(33.9k)
German
(4.9k)
Spanish
(174k)
Medicine
(125k)
Law
(53.4k)
Engineering
(74.2k)
Other Questions
How do you can you solve this problem 37 + y = 87; y =
How do you estimate of 4 5/8 X 1/3
A bathtub is being filled with water. After 3 minutes 4/5 of the tub is full. Assuming the rate is constant, how much longer will it take to fill the tub?
Twitter
WhatsApp
Facebook
Reddit
LinkedIn
Email
Link Copied!
Copy
Search Qamnty