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r=10.5(0.535)^x determine the decay rate

  1. Complete the table below.Recall that the equations for Exponential Growth is f(x) = a(1+r)t and the Exponential Rate of Decay is
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  2. Complete the table below.Recall that the equations for Exponential Growth is f(x) = a(1+r)t and the Exponential Rate of Decay is
    1. answers icon 1 answer
    2. views icon 39 views
  3. Complete the table below.Recall that the equations for Exponential Growth is f(x) = a(1+r)t and the Exponential Rate of Decay is
    1. answers icon 1 answer
    2. views icon 32 views
  4. a radioactive sample has a decay rate R of 518 decay/min at time t=7 min and 156 decay/ min at time t=17 min. calculate the
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    2. renaa asked by renaa
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  5. Determine whether the function below is exponential growth or decay, and find the rate of change. P(t)=8.5(0.92)2 (1 point)
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  6. A sample of the radioisotope potassium-40 is crushed to increase its surface area. The temperature of the sample is then lowered
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  7. 10. Exponential Functions in Context(1 point)Complete the table below. Recall that the equations for Exponential Growth is f(x)
    1. answers icon 1 answer
    2. views icon 50 views
  8. 10. Exponential Functions in Context(1 point)Complete the table below. Recall that the equations for Exponential Growth is f(x)
    1. answers icon 1 answer
    2. views icon 45 views
  9. The rate constants for a first order decay reaction are found to be:k287.3∘C=1 x 10−4 s−1 k327.4∘C=19.2 x 10−4 s−1
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    2. Anonymous asked by Anonymous
    3. views icon 1,025 views
  10. The rate constants for a first order decay reaction are found to be:k287.3∘C=1 x 10−4 s−1 k327.4∘C=19.2 x 10−4 s−1
    1. answers icon 2 answers
    2. selly asked by selly
    3. views icon 539 views