''please answer fast'' The Ferris wheel is rotating and the vertical height of the cart above the ground is from a wall to
a car moving around a circular track is given by the function h(t) = 10 sin(
π/3∙ (t − 1)) + 16
A) Draw a diagram, and create a sketch for the car's motion
B) At what position will the car be when it is moving at 6 m/s (down)
C) Determine the maximum velocity of the car when it is moving up and the first 3 times it
occurs.
D) What is the acceleration of the car at a time of 8 s?
Answers
Step-by-step explanation:
''please answer fast'' The Ferris wheel is rotating and the vertical height of the cart above the ground is from a wall to
a car moving around a circular track is given by the function h(t) = 10 sin(
π/3∙ (t − 1)) + 16
A) Draw a diagram, and create a sketch for the car's motion
B) At what position will the car be when it is moving at 6 m/s (down)
C) Determine the maximum velocity of the car when it is moving up and the first 3 times it
occurs.
D) What is the acceleration of the car at a time of 8 s?''please answer fast'' The Ferris wheel is rotating and the vertical height of the cart above the ground is from a wall to
a car moving around a circular track is given by the function h(t) = 10 sin(
π/3∙ (t − 1)) + 16
A) Draw a diagram, and create a sketch for the car's motion
B) At what position will the car be when it is moving at 6 m/s (down)
C) Determine the maximum velocity of the car when it is moving up and the first 3 times it
occurs.
D) What is the acceleration of the car at a time of 8 s?''please answer fast'' The Ferris wheel is rotating and the vertical height of the cart above the ground is from a wall to
a car moving around a circular track is given by the function h(t) = 10 sin(
π/3∙ (t − 1)) + 16
A) Draw a diagram, and create a sketch for the car's motion
B) At what position will the car be when it is moving at 6 m/s (down)
C) Determine the maximum velocity of the car when it is moving up and the first 3 times it
occurs.
D) What is the acceleration of the car at a time of 8 s?''please answer fast'' The Ferris wheel is rotating and the vertical height of the cart above the ground is from a wall to
a car moving around a circular track is given by the function h(t) = 10 sin(
π/3∙ (t − 1)) + 16
A) Draw a diagram, and create a sketch for the car's motion
B) At what position will the car be when it is moving at 6 m/s (down)
C) Determine the maximum velocity of the car when it is moving up and the first 3 times it
occurs.
D) What is the acceleration of the car at a time of 8 s?''please answer fast'' The Ferris wheel is rotating and the vertical height of the cart above the ground is from a wall to
a car moving around a circular track is given by the function h(t) = 10 sin(
π/3∙ (t − 1)) + 16
A) Draw a diagram, and create a sketch for the car's motion
B) At what position will the car be when it is moving at 6 m/s (down)
C) Determine the maximum velocity of the car when it is moving up and the first 3 times it
occurs.
D) What is the acceleration of the car at a time of 8 s?''please answer fast'' The Ferris wheel is rotating and the vertical height of the cart above the ground is from a wall to
a car moving around a circular track is given by the function h(t) = 10 sin(
π/3∙ (t − 1)) + 16
A) Draw a diagram, and create a sketch for the car's motion
B) At what position will the car be when it is moving at 6 m/s (down)
C) Determine the maximum velocity of the car when it is moving up and the first 3 times it
occurs.
D) What is the acceleration of the car at a time of 8 s?''please answer fast'' The Ferris wheel is rotating and the vertical height of the cart above the ground is from a wall to
a car moving around a circular track is given by the function h(t) = 10 sin(
π/3∙ (t − 1)) + 16
A) Draw a diagram, and create a sketch for the car's motion
B) At what position will the car be when it is moving at 6 m/s (down)
C) Determine the maximum velocity of the car when it is moving up and the first 3 times it
occurs.
D) What is the acceleration of the car at a time of 8 s?