Academic Integrity: tutoring, explanations, and feedback — we don’t complete graded work or submit on a student’s behalf.

Just an instant before reaching the very bottom of a semicircular section of a r

ID: 1539664 • Letter: J

Question

Just an instant before reaching the very bottom of a semicircular section of a roller coaster ride, the automatic emergency brake inadvertently goes on. Assume the car has a total mass of 870 kg , the radius of that section of the track is 57.0 m , and the car entered the bottom after descending vertically (from rest) 29.0 m on a frictionless straight incline.

Part A

If the braking force is a steady 1700 N , determine the magnitude of the car's centripetal acceleration.

9.97

SubmitMy AnswersGive Up

Correct

Part B

Determine the ditection of the car's centripetal acceleration.

SubmitMy AnswersGive Up

Part C

Determine the normal force of the track on the car.

1.72×104

SubmitMy AnswersGive Up

Correct

Part D

Determine the magnitude of the tangential acceleration of the car.

SubmitMy AnswersGive Up

Part E

Determine the direction of the tangential acceleration of the car.

SubmitMy AnswersGive Up

Incorrect; Try Again; 5 attempts remaining

Part F

Determine the total acceleration of the car.

Just an instant before reaching the very bottom of a semicircular section of a roller coaster ride, the automatic emergency brake inadvertently goes on. Assume the car has a total mass of 870 kg , the radius of that section of the track is 57.0 m , and the car entered the bottom after descending vertically (from rest) 29.0 m on a frictionless straight incline.

Part A

If the braking force is a steady 1700 N , determine the magnitude of the car's centripetal acceleration.

ac =

9.97

  m/s2  

SubmitMy AnswersGive Up

Correct

Part B

Determine the ditection of the car's centripetal acceleration.

Determine the ditection of the car's centripetal acceleration. upward downward toward velocity opposite velocity

SubmitMy AnswersGive Up

Part C

Determine the normal force of the track on the car.

N =

1.72×104

  N  

SubmitMy AnswersGive Up

Correct

Part D

Determine the magnitude of the tangential acceleration of the car.

at =   m/s2  

SubmitMy AnswersGive Up

Part E

Determine the direction of the tangential acceleration of the car.

Determine the direction of the tangential acceleration of the car. upward downward toward velocity opposite velocity

SubmitMy AnswersGive Up

Incorrect; Try Again; 5 attempts remaining

Part F

Determine the total acceleration of the car.

a =   m/s2  

Explanation / Answer

B) upward

D) at = 1700/870 = 1.95 4m/s^2

E) Towards velocity

F)total acclertaion = sqroot (9.97^2 + 1.964^2) = 10.159 m/s ^2

Related Questions

Just Exercises 19-8, 19-9, and 19-10 April 30 osing sysiem May 31 Raw materials
Question #2602139
Just Exercises 19-8, 19-9, and 19-10 April 30 osing sysiem May 31 Raw materials
Question #2602788
Just In Time #4 With her newly charged capacitor, and rail-gun set up, Prof. Gra
Question #1575793
Just In Time #4 With her newly charged capacitor, and rail-gun set up, Prof. Gra
Question #1868389
Just In Time Question 11: Prof. Marcia Grail is performing a complex quantum mec
Question #2304325
Just In Time Question 2 Satisfied with her previous experiment in the vacuum cha
Question #1661499
Just In Time strategies are considered to reduce the overall Cost of Quality. Wh
Question #423589
Just Need 6 please. Im not sure what an accumulation point is. A\' is supposed t
Question #1720794

Navigate

Previous
Just an ideal solution will theoretically exhibit Hsolution = 0, optimum miscibi
Next
Just an instant before reaching the very bottom of a semicircular section of a r

Integrity-first tutoring: explanations and feedback only — we do not complete graded work. Learn more.