a. x = 8, y = 17
b. x = 6, y = 8
c. x = 8, y = 10
d. x = 8, y = 6
Answer:
The answer to your question is r = 10
Step-by-step explanation:
Data
(x² + 10x ) + (y² - 8y ) = 59
Process
1.- Complete the perfect square trinomials
(x² + 10x + (5)²) + (y² - 8y + (4)²) = 59 + (5)² + (4)²
2.- Simplify
(x² + 10x + 25) + (y² - 8y + 16) = 59 + 25 + 16
3.- Factor
(x + 5)² + (y - 4)² = 100
or (x + 5)² + (y - 4)² = 10²
4.- Compare the result with the standard form
(x - h)² + (y - k)² = r²
then r² = 10²
and r = 10
The number of bacterial population after 5 hours is; 816
N(t) = N_o(1 + r)^(t)
Where;
N(t) is number of bacteria after t hours
N_o is number of bacteria initially
r is growth rate
t is time
N_o = 480
r = 11.2% = 0.112
t = 5
N(5) = 480(1 + 0.112)^(5)
N(5) = 816.14
Read more about exponential growth at; brainly.com/question/15316908
The bacterial population after 5 hours with an exponential growth rate of 11.2% per hour and an initial population of 480 bacteria would be approximately 947.1 bacteria.
To calculate the bacterial population after 5 hours with an exponential growth rate of 11.2% per hour and an initial population of 480 bacteria, we can use the formula
P = P0 * (1 + r)^t.
P is the final population, P0 is the initial population, r is the growth rate expressed as a decimal, and t is the time in hours.
Using the given values, the formula becomes: P = 480 * (1 + 0.112)^5.
Solving this equation, the bacterial population after 5 hours would be approximately 947.1 bacteria.
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2)y-8=3/2(x+6) 4)y+8=-2/3(x-6)
answer:
1)y-8=-2/3(x+6) 3)y+8=3/2(x-6)
Answer:
0.4%.
Step-by-step explanation:
If the gears on the machine are not linked to each other, the probability that both replacement gears will fail is 0.4%.