1. Calculate the centripetal force on the end of a 100 m (radius) wind turbine blade that is rotating at 0.5 rev/s. Assume the mass is 4 kg.
2. Compute the ideal banking angle for a gentle turn of 1.00 km radius on a highway with a 110 km/h speed limit, assuming everyone travels at the limit?
1. Calculate the centripetal force on the end of a 100 m (radius) wind turbine blade...
Calculate the ideal banking angle in degrees for a gentle turn of 1.53 km radius on a highway with a 87.8 km/hr speed limit, assuming everyone travels at the speed limit.
Calculate the ideal banking angle in degrees for a gentle turn of 1.8 km radius on a highway with a 109.3 km/hr speed limit, assuming everyone travels at the speed limit.
Calculate the ideal banking angle in degrees for a gentle turn of 1.51 km radius on a highway with a 85.8 km/hr speed limit, assuming everyone travels at the speed limit.
What is the ideal banking angle (in degrees) for a gentle turn of 1.75 km radius on a highway with a 100 km/h speed limit (about 62 mi/h), assuming everyone travels at the limit?
Consider the blade of the wind turbine (Fig. 2, next page),
having the following properties:
Blade radius, R=19.0 m Rotor angular speed,
Ω=5.0 rad/s Blade total mass, Mb=900 kg Offset, eR (additional
information below)
Hinge spring stiffness, 7*106 (N-m/rad)
See Fig. 2 on the next page
Consider the blade of the wind turbine (Fig. 2, next page), having the following properties: Blade radius, R-19.0 m Rotor angular speed, Ω 5.0 rad/s Blade total mass, M, 900 kg Offset, eR (additional...
On a highway curve with radius 30 m, the maximum force of static friction (centripetal force) that can act on a 1,273-kg car going around the curve is 9,127 N. What speed limit should be posted for the curve so that cars can negotiate it safely?
1) A point on the rim of a 0.15-m-radius rotating disk has a centripetal acceleration of 4.0 m/s2. What is the angular speed of a point 0.075 m from the center of the disk? 2) A point on the rim of a 0.30-m-radius fan blade has centripetal acceleration of 0.35 m/s2. Find the centripetal acceleration of a point 0.040 m from the center of the same wheel. 3) Masses are distributed in the xy-plane as follows: 2.0 kg at (0.0,...
Came: 7. What centripetal force does an 100-kg passenger experience when seated 15 m from the center of a Ferris wheel whose angular speed is 0.75 rad/s? a 844 N b. 458 N c. 127N d. 978 N 8. A spool of thread has an average radius of 2.00 cm. If the spool contains 75 m of thread, how many turns of thread are on the spool? "Average radius" allows us to not need to treat the layering of threads...
1). In a uniform circular motion, instantaneous velocity is tangent to the circle a) True b) False c) Can's say 2).In a uniform circular motion, acceleration is normal to the velocity and directed toward the center a) True b) False c) Unknown 3). For a particle of mass 'm' moving with a uniform velocity 'v'in a circle of radius 'r', write the expression for centripetal force (Fc)? 4). If a particle rotates in a circle of radius r = 10...
1).In a uniform circular motion, instantaneous velocity is tangent to the circle a) True b) False c) Can's say 2).In a uniform circular motion, acceleration is normal to the velocity and directed toward the center a) True b) False c) Unknown 3). For a particle of mass 'm' moving with a uniform velocity 'v' in a circle of radius 'r', write the expression for centripetal force (Fc)? 4). If a particle rotates in a circle of radius r= 10 cm...