Question
Problem 7.54 You are designing a delivery ramp for crates containing exercise equipment. The crates of weight 1490
N will move with speed 1.9
m/s at the top of a ramp that slopes downward at an angle 23.0
?. The ramp will exert a 582
Nforce of kinetic friction on each crate, and the maximum force of static friction also has this value. At the bottom of the ramp, each crate will come to rest after compressing a spring a distance
x. Each crate will move a total distance of 7.9
malong the ramp; this distance includes
x. Once stopped, a crate must not rebound back up the ramp.
Part A Calculate the maximum force constant of the spring
kmax that can be used in order to meet the design criteria.
kmax =
N/m SubmitMy AnswersGive Up Incorrect; One attempt remaining; Try Again
Provide FeedbackContinue
Phys2325 F13 - Signed in as Udai Pabla
- Help
- Close
m8 energy Problem 7.54 ResourceseTextConstantsStudy Area
Problem 7.54 You are designing a delivery ramp for crates containing exercise equipment. The crates of weight 1490
N will move with speed 1.9
m/s at the top of a ramp that slopes downward at an angle 23.0
?. The ramp will exert a 582
Nforce of kinetic friction on each crate, and the maximum force of static friction also has this value. At the bottom of the ramp, each crate will come to rest after compressing a spring a distance
x. Each crate will move a total distance of 7.9
malong the ramp; this distance includes
x. Once stopped, a crate must not rebound back up the ramp.
Part A Calculate the maximum force constant of the spring
kmax that can be used in order to meet the design criteria.
kmax =
N/m SubmitMy AnswersGive Up Incorrect; One attempt remaining; Try Again
Provide FeedbackContinue
Problem 7.54 You are designing a delivery ramp for crates containing exercise equipment. The crates of weight 1490
N will move with speed 1.9
m/s at the top of a ramp that slopes downward at an angle 23.0
?. The ramp will exert a 582
Nforce of kinetic friction on each crate, and the maximum force of static friction also has this value. At the bottom of the ramp, each crate will come to rest after compressing a spring a distance
x. Each crate will move a total distance of 7.9
malong the ramp; this distance includes
x. Once stopped, a crate must not rebound back up the ramp.
Problem 7.54 You are designing a delivery ramp for crates containing exercise equipment. The crates of weight 1490
N will move with speed 1.9
m/s at the top of a ramp that slopes downward at an angle 23.0
?. The ramp will exert a 582
Nforce of kinetic friction on each crate, and the maximum force of static friction also has this value. At the bottom of the ramp, each crate will come to rest after compressing a spring a distance
x. Each crate will move a total distance of 7.9
malong the ramp; this distance includes
x. Once stopped, a crate must not rebound back up the ramp. You are designing a delivery ramp for crates containing exercise equipment. The crates of weight 1490
N will move with speed 1.9
m/s at the top of a ramp that slopes downward at an angle 23.0
?. The ramp will exert a 582
Nforce of kinetic friction on each crate, and the maximum force of static friction also has this value. At the bottom of the ramp, each crate will come to rest after compressing a spring a distance
x. Each crate will move a total distance of 7.9
malong the ramp; this distance includes
x. Once stopped, a crate must not rebound back up the ramp. You are designing a delivery ramp for crates containing exercise equipment. The crates of weight 1490
N will move with speed 1.9
m/s at the top of a ramp that slopes downward at an angle 23.0
?. The ramp will exert a 582
Nforce of kinetic friction on each crate, and the maximum force of static friction also has this value. At the bottom of the ramp, each crate will come to rest after compressing a spring a distance
x. Each crate will move a total distance of 7.9
malong the ramp; this distance includes
x. Once stopped, a crate must not rebound back up the ramp.
Part A Calculate the maximum force constant of the spring
kmax that can be used in order to meet the design criteria.
kmax =
N/m SubmitMy AnswersGive Up Incorrect; One attempt remaining; Try Again
Provide FeedbackContinue
Part A Calculate the maximum force constant of the spring
kmax that can be used in order to meet the design criteria.
kmax =
N/m SubmitMy AnswersGive Up Incorrect; One attempt remaining; Try Again
Part A Calculate the maximum force constant of the spring
kmax that can be used in order to meet the design criteria.
kmax =
N/m SubmitMy AnswersGive Up Incorrect; One attempt remaining; Try Again
Part A Calculate the maximum force constant of the spring
kmax that can be used in order to meet the design criteria.
kmax =
N/m SubmitMy AnswersGive Up Incorrect; One attempt remaining; Try Again
Part A Calculate the maximum force constant of the spring
kmax that can be used in order to meet the design criteria.
kmax =
N/m SubmitMy AnswersGive Up Incorrect; One attempt remaining; Try Again
Part A Calculate the maximum force constant of the spring
kmax that can be used in order to meet the design criteria.
kmax =
N/m SubmitMy AnswersGive Up Incorrect; One attempt remaining; Try Again
kmax =
N/m kmax =
N/m SubmitMy AnswersGive Up Incorrect; One attempt remaining; Try Again Incorrect; One attempt remaining; Try Again Incorrect; One attempt remaining; Try Again
Provide FeedbackContinue
Phys2325 F13 - Signed in as Udai Pabla
- Help
- Close
m8 energy Problem 7.54 ResourceseTextConstantsStudy Area
Phys2325 F13 - Signed in as Udai Pabla
- Help
- Close
m8 energy Problem 7.54 ResourceseTextConstantsStudy Area
Phys2325 F13 - Signed in as Udai Pabla
- Help
- Close
Phys2325 F13 - Signed in as Udai Pabla
- Help
- Close
m8 energy Problem 7.54 ResourceseTextConstantsStudy Area
m8 energy Problem 7.54
m8 energy Problem 7.54 ResourceseTextConstantsStudy Area ResourceseTextConstantsStudy Area
Problem 7.54 You are designing a delivery ramp for crates containing exercise equipment. The crates of weight 1490
N will move with speed 1.9
m/s at the top of a ramp that slopes downward at an angle 23.0
?. The ramp will exert a 582
Nforce of kinetic friction on each crate, and the maximum force of static friction also has this value. At the bottom of the ramp, each crate will come to rest after compressing a spring a distance
x. Each crate will move a total distance of 7.9
malong the ramp; this distance includes
x. Once stopped, a crate must not rebound back up the ramp.
Part A Calculate the maximum force constant of the spring
kmax that can be used in order to meet the design criteria.
kmax =
N/m SubmitMy AnswersGive Up Incorrect; One attempt remaining; Try Again
Provide FeedbackContinue You are designing a delivery ramp for crates containing exercise equipment. The crates of weight 1490N will move with speed 1.9m/s at the top of a ramp that slopes downward at an angle 23.0?. The ramp will exert a 582Nforce of kinetic friction on each crate, and the maximum force of static friction also has this value. At the bottom of the ramp, each crate will come to rest after compressing a spring a distance x. Each crate will move a total distance of 7.9malong the ramp; this distance includes x. Once stopped, a crate must not rebound back up the ramp. Calculate the maximum force constant of the spring kmax that can be used in order to meet the design criteria.
Explanation / Answer
The energy the spring must absorb is ( taking g = 10 N/kg )
KE + GPE