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The Velocity (Measured in Meters Per Second) of an Air-Dropped $\ge$

Question 4

Multiple Choice

The velocity (measured in meters per second) of an air-dropped container of food and supplies affixed to a parachute is described by the function v(t) = 56 tanh(0.23t) , t $\ge$ 3.2, where t is measured in seconds. You are interested in approximating the vertical distance s(t) traveled by the package by time t = 3.45 seconds.Using a step size of h = 0.25 seconds, compute the vertical distance traveled in the first 3.45 seconds.
$The velocity (measured in meters per second) of an air-dropped container of food and supplies affixed to a parachute is described by the function v(t) = 56 tanh(0.23t) , t \ge 3.2, where t is measured in seconds. You are interested in approximating the vertical distance s(t) traveled by the package by time t = 3.45 seconds.Using a step size of h = 0.25 seconds, compute the vertical distance traveled in the first 3.45 seconds. A) 56 tanh(0.23 × (3.2 + 0.25) ) B) tanh(0.23 × (3.2 + 0.25) ) C) 56 tanh D) tanh(0.23 × (3.2+ 0.25) ) E) tanh$

A) 56 tanh(0.23 × (3.2 + 0.25) )
B) tanh(0.23 × (3.2 + 0.25) )
C) 56 tanh $The velocity (measured in meters per second) of an air-dropped container of food and supplies affixed to a parachute is described by the function v(t) = 56 tanh(0.23t) , t \ge 3.2, where t is measured in seconds. You are interested in approximating the vertical distance s(t) traveled by the package by time t = 3.45 seconds.Using a step size of h = 0.25 seconds, compute the vertical distance traveled in the first 3.45 seconds. A) 56 tanh(0.23 × (3.2 + 0.25) ) B) tanh(0.23 × (3.2 + 0.25) ) C) 56 tanh D) tanh(0.23 × (3.2+ 0.25) ) E) tanh$
D) $The velocity (measured in meters per second) of an air-dropped container of food and supplies affixed to a parachute is described by the function v(t) = 56 tanh(0.23t) , t \ge 3.2, where t is measured in seconds. You are interested in approximating the vertical distance s(t) traveled by the package by time t = 3.45 seconds.Using a step size of h = 0.25 seconds, compute the vertical distance traveled in the first 3.45 seconds. A) 56 tanh(0.23 × (3.2 + 0.25) ) B) tanh(0.23 × (3.2 + 0.25) ) C) 56 tanh D) tanh(0.23 × (3.2+ 0.25) ) E) tanh$ tanh(0.23 × (3.2+ 0.25) )
E) $The velocity (measured in meters per second) of an air-dropped container of food and supplies affixed to a parachute is described by the function v(t) = 56 tanh(0.23t) , t \ge 3.2, where t is measured in seconds. You are interested in approximating the vertical distance s(t) traveled by the package by time t = 3.45 seconds.Using a step size of h = 0.25 seconds, compute the vertical distance traveled in the first 3.45 seconds. A) 56 tanh(0.23 × (3.2 + 0.25) ) B) tanh(0.23 × (3.2 + 0.25) ) C) 56 tanh D) tanh(0.23 × (3.2+ 0.25) ) E) tanh$ tanh $The velocity (measured in meters per second) of an air-dropped container of food and supplies affixed to a parachute is described by the function v(t) = 56 tanh(0.23t) , t \ge 3.2, where t is measured in seconds. You are interested in approximating the vertical distance s(t) traveled by the package by time t = 3.45 seconds.Using a step size of h = 0.25 seconds, compute the vertical distance traveled in the first 3.45 seconds. A) 56 tanh(0.23 × (3.2 + 0.25) ) B) tanh(0.23 × (3.2 + 0.25) ) C) 56 tanh D) tanh(0.23 × (3.2+ 0.25) ) E) tanh$

The Velocity (Measured in Meters Per Second) of an Air-Dropped ≥\ge≥

Multiple Choice

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The Velocity (Measured in Meters Per Second) of an Air-Dropped $\ge$

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