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  1. The number of bugs doubles every 4 days. If the bug population starts with 6 bugs, then the equation A(t)=6(2)0.25t𝐴 ( 𝑡 )
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    2. nut asked by nut
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  2. The number of bugs doubles every 4 days. If the bug population starts with 6 bugs, then the equation A(t)=6(2)0.25tcan represent
    1. answers icon 1 answer
    2. , asked by ,
    3. views icon 57 views
  3. The number of bugs doubles every 4 days. If the bug population starts with 6 bugs, then the equation A(t)=6(2)^0.25tcan
    1. answers icon 1 answer
    2. views icon 26 views
  4. The number of bugs doubles every 4 days. If the bug population starts with 6 bugs, then the equation A(t)=6(2)0.25tcan represent
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    2. Blue Berry asked by Blue Berry
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  5. The number of bugs doubles every 4 days. If the bug population starts with 6 bugs, then the equation A(t)=6(2)^0.25tcan
    1. answers icon 1 answer
    2. views icon 35 views
  6. The number of bugs doubles every 4 days. If the bug population starts with 6 bugs, then the equation A(t)=6(2)0.25tcan represent
    1. answers icon 1 answer
    2. views icon 24 views
  7. The number of bugs doubles every 4 days. If the bug population starts with 6 bugs, then the equation A(t)=6(2)0.25t can
    1. answers icon 1 answer
    2. views icon 15 views
  8. The number of bugs doubles every 4 days. If the bug population starts with 6 bugs, then the equation  A(t)=6(2)0.25tcan
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    2. :) asked by :)
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  9. The number of bugs doubles every 4 days. If the bug population starts with 6 bugs, then the equation A(t)=6(2)0.25tcan represent
    1. answers icon 1 answer
    2. views icon 22 views
  10. The number of bugs doubles every 4 days. If the bug population starts with 6 bugs, then the equation A(t)=6(2)0.25t can
    1. answers icon 1 answer
    2. views icon 40 views