Answer:
ok,just substitute the x for -1
3x-5=6x-2
3(-1)-5=6(-1)-2
-3-5 = -6-2
-8 = -8
TRUE
So,the solution is correct.-1 is the correct solution
I hope this help,Please give me the brainliest
Step-by-step explanation:
Answer:
im not doing all that for you
Step-by-step explanation:
To get started, we will use the general formula for bacteria growth/decay problems:

where:
A_{f} = Final amount
A_{i} = Initial amount
k = growth rate constant
t = time
For doubling problems, the general formula can be shortened to:

Now, we can use the shortened formula to calculate the growth rate constant of both bacteria:
Colby (1):


per hour
Jaquan (2):


per hour
Using Colby's rate constant, we can use the general formula to calculate for Colby's final amount after 1 day (24 hours).
Note: All units must be constant, so convert day to hours.


Remember that the final amount for both bacteria must be the same after 24 hours. Again, using the general formula, we can calculate the initial amount of bacteria that Jaquan needs:

The easiest way think of .36 as 36/100 and then divide by 2's.
36/100
18/50
9/25
Answer:
9,772,219 (Approx)
Step-by-step explanation:
Given:
Current population = 8,851,000
Growth rate = 2% = 0.02
a. Time = t
b. Time = 5 years
Find:
a. Write the equation.
b. Population after 5 year = ?
Computation:
a. Equation for the following question:
After population = 

b. Population after 5 year
