After 1000 mL of solution is given to a patient via an IV, then 20 mL per minute was given. This follows a function represented as M = 1000 + 20t. Which answer best identifies the independent variable and the dependent variable O Independent variable M, for total milliliters, dependent variable t, for time in minutes. O Independent variable t, for total milliliters, dependent variable M, for time in minutes. O Independent variable M, for time in minutes, dependent variable t, for total milliters. O Independent variable t, for time in minutes, dependent variable M, for total milliters.
After 1000 mL of solution is given to a patient via an IV, then 20 mL per minute was given. This follows a function represented as M = 1000 + 20t. Which answer best identifies the independent variable and the dependent variable O Independent variable M, for total milliliters, dependent variable t, for time in minutes. O Independent variable t, for total milliliters, dependent variable M, for time in minutes. O Independent variable M, for time in minutes, dependent variable t, for total milliters. O Independent variable t, for time in minutes, dependent variable M, for total milliters.
Chapter3: Polynomial Functions
Section3.5: Mathematical Modeling And Variation
Problem 7ECP: The kinetic energy E of an object varies jointly with the object’s mass m and the square of the...
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After 1000 mL of a solution is given to a patient via an IV, then 20 mL per minute was given
this follows a function represented as M=1000+20t
which answer best identifies the independent variable and the dependent variable?
Transcribed Image Text:After 1000 mL of solution is given to a patient via an IV, then 20 mL per
minute was given.
This follows a function represented as M = 1000 + 20t.
Which answer best identifies the independent variable and the
dependent variable
O Independent variable M, for total milliliters, dependent variable t, for time in minutes.
O Independent variable t, for total milliliters, dependent variable M, for time in minutes.
O Independent variable M, for time in minutes, dependent variable t, for total milliters.
O Independent variable t, for time in minutes, dependent variable M, for total milliters.
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