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R eview : exponential growth and Decay functions .
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In this lesson, you will review how to write an exponential growth and decay function modeling a percent of increase situation or decrease situation by interpreting the percent of increase as a growth factor or percent of decrease as a decay factor.
Review: exponential growth functions Exponential growth happens by repeated multiplication by the same number.
Review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory.
Review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory.
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory.
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory.
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory.
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory.
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory.
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory.
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory.
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory.
Review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory. The growth factor is 2.
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory. Suppose you initially have 25 specimens of this bacteria.
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory. Suppose you initially have 25 specimensof this bacteria.
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory. Suppose you initially have 25 specimensof this bacteria.
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory. Suppose you initially have 25 specimensof this bacteria.
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory. Suppose you initially have 25 specimensof this bacteria.
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory. Suppose you initially have 25 specimensof this bacteria.
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory. Suppose you initially have 25 specimensof this bacteria. The initial value is 25.
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory. Suppose you initially have 25 specimensof this bacteria.
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory. Suppose you initially have 25 specimensof this bacteria. Let x = number of time periods since growth began
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory. Suppose you initially have 25 specimensof this bacteria. Let x = number of time periods since growth began Let y = amount of the growing quantity
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory. Suppose you initially have 25 specimensof this bacteria. Let x = number of time periods since growth began Let y = amount of the growing quantity
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory. Suppose you initially have 25 specimensof this bacteria. Let x = number of time periods since growth began Let y = amount of the growing quantity
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory. Suppose you initially have 25 specimensof this bacteria. Let x = number of time periods since growth began Let y = amount of the growing quantity initial value growth factor
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory. Suppose you initially have 25 specimensof this bacteria. Let x = number of time periods since growth began Let y = amount of the growing quantity initial value growth factor
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory. Suppose you initially have 25 specimensof this bacteria. Let x = number of time periods since growth began Let y = amount of the growing quantity initial value 2
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory. Suppose you initially have 25 specimensof this bacteria. Let x = number of time periods since growth began Let y = amount of the growing quantity initial value 2
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory. Suppose you initially have 25 specimensof this bacteria. Let x = number of time periods since growth began Let y = amount of the growing quantity 2 25
review: exponential growth functions A certain species of bacteria will double in population each week in a laboratory. Suppose you initially have 25 specimens of this bacteria. Let x = number of time periods since growth began Let y = amount of the growing quantity
interpreting a percent of increase as a growth factor The amount of money in your savings account increased by 3% last year.
interpreting a percent of increase as a growth factor The amount of money in your savings account increased by 3% last year. What does it mean to grow by 3%?
interpreting a percent of increase as a growth factor The amount of money in your savings account increased by 3% last year. What does it mean to grow by 3%?
interpreting a percent of increase as a growth factor The amount of money in your savings account increased by 3% last year. What does it mean to grow by 3%?
interpreting a percent of increase as a growth factor The amount of money in your savings account increased by 3% last year. What does it mean to grow by 3%?
interpreting a percent of increase as a growth factor The amount of money in your savings account increased by 3% last year. What does it mean to grow by 3%?
interpreting a percent of increase as a growth factor The amount of money in your savings account increased by 3% last year. What does it mean to grow by 3%?
interpreting a percent of increase as a growth factor The amount of money in your savings account increased by 3% last year. What does it mean to grow by 3%?
interpreting a percent of increase as a growth factor The amount of money in your savings account increased by 3% last year. What does it mean to grow by 3%?
interpreting a percent of increase as a growth factor The amount of money in your savings account increased by 3% last year. What does it mean to grow by 3%?