A constant torque of 24.5 N. m is applied to a grindstone whose moment of inertia is 0.130 kg · m. Using energy principles, and neglecting friction, find the angular speed after the grindstone has made 14.0 revolutions. Hint: the angular equivalent of Wnet = FAx =. mv? -mv? is wnet = TA0 = lo} - lw?. You should convince yourself that this last relationship is correct. (Assume the grindstone starts from rest.) rev/s

Q: A lawnmower engine brings a 1 m-long by 0.1 m-wide cutting blade of mass 2.55 kg from rest to an…

A: The length of the cutting blade: The width of the cutting blade: The mass of the cutting blade: The…

Q: The rigid body shown in the figure consists of three particles connected by massless rods. It is to…

A:

Q: In the figure, two blocks, of masses m=1.69 (kg) and M=3.65 (kg), are connected by a light string…

A:

Q: A torque of 170 N.m does 4715 J of work on a rotating flywheel. If the flywheels initial kinetic…

A: Given : τ = 170 N.m W = 4715 J Ki = 1320 J

Q: The puck in the figure below has a mass of 0.120 kg. The distance of the puck from the center of…

A:

Q: In the figure, a wheel of radius 0.364 m is mounted on a frictionless horizontal axis. The…

A:

Q: A thin rod of length 0.75 m and mass 0.40 kg is suspended freely from one end. It is pulled to one…

A:

Q: The figure shows a rigid assembly of a thin hoop (of mass m = 0.14 kg and radius R = 0.19 m) and a…

A:

Q: Three hoops roll down a hill. They all have the same mass, but one has radius R, one has radius 2R,…

A: Given, Three hoops with varius size of radius is roll down from the hill

Q: The turntable in a microwave oven has a moment of inertia of 0.038 kg⋅m2 and is rotating once every…

A: Given, moment of inertia =0.038 kg.m2time period T =5.0 secwe have to calculate the kinetic energy.

Q: , assuming that th

A: Given as, Length (L) = 1 m  Acceleration due to gravity (g) = 9.8 m/s2

Q: f the mass of the bullet is 12.0 g, find (a) the initial speed of the bullet and (b) the energy…

A:

Q: A 330 kg motorcycle includes two wheels, each of which is 48 cm in diameter and has rotational…

A: Given, motorcycle mass,mmc = 330kg Rider mass,m =61kg Speed,v= 90Km/hr=25m/s Rotational inertia, I=…

Q: A child of mass M is in a swing at the park. The chains have length L. The child is pulled back by…

A:

Q: The figure shows a rigid assembly of a thin hoop (of mass m = 0.30 kg and radius R = 0.17 m) and a…

A: Given :Mass of hoop, mh=0.30 kgRadius of hoop, R=0.17 mMass of rod, mr=0.30 kgLength of the rod,…

Q: The puck in the figure below has a mass of 0.120 kg. The distance of the puck from the center of…

A: The objective of the question is to determine the work done on the puck. This can be done by…

Q: Malar is playing with a toy car track set and has made a vetical loop she wants to send a 150-gram…

A: Given of car =150 g Height of which she releases radius o loop =20 cm

Q: A 7.0 kg steel ball of radius 4.0 cm rolls without slipping from rest down a hill of height 3.0 m.…

A:

Q: A thin rod of length 1.3 m and mass 190 g is suspended freely from one end. It is pulled to one side…

A:

Q: a: = -0.231 rev/s. Then w 0, a; in w. = Wo: +at gives t = 36.0 s. -0.231 rev A high-speed flywheel…

A: now in the following question we have already figured out our t where  t =36.0s now to calculate the…

Q: A 3.7-kg sphere is suspended by a cord that passes over a 1,7-kg pulley of radius 3.4 cm. The cord…

A: A.)f=ma=f=kx add both masses=5.4kg f=5.4×9.81= 52.97N 52.97=86x therefore, x=.6159m…

Q: A flywheel is a disk that is 0.3 m in radius and has a mass of 15kg. Mechanical energy can be stored…

A:

Q: A thin rod of length 0.632 m and mass 66.5 g is suspended freely from one end. It is pulled to one…

A: Given: Length of rod Mass of rod Angular speed Required: (a) Rod's kinetic energy at lowest…

Q: A flywheel is a disk that is 0.3 m in radius and has a mass of 15kg. Mechanical energy can be stored…

A: The objective of the question is to find the angular speed required to spin the flywheel in order to…

Q: The puck in the figure below has a mass of 0.224 kg. Its original distance from the center of…

A:

Q: A Ferris wheel has moment of inertia 2.2 x 105 kg·m2. From rest, the operator starts the wheel and…

A: The moment of inertia of the wheel I=2.2×105 kg m2 The time for which the wheel accelerates t=13.4 s…

Q: To drive a typical car at 40 mph on a level road for one hour requires about 3.2 × 10^7 J of energy.…

A: We have a wheel of mass m=450 kg and diameter d=1.26 m which is spinning with a angular velocity say…

Q: Some European trucks run on energy stored in a rotating flywheel, with an electric motor getting the…

A: The kinetic energy of a rotating object is given by the equation K=12Iω2I is the moment of inertia…

Q: To drive a typical car at 40 mph on a level road for one hour requires about 3.2 × 10^7 J of energy.…

A: We've to use angular equation of Kinetic energy to solve the question.

Q: While spinning down from 500.0 rpm to rest, a solid uniform disk does 51 KJ of work. If the radius…

A: Given,  Flywheel spinning down from N = 500 rpm. Kinetic energy = 51 kJ Radius = 400mm We need to…

Q: A hollow sphere is released from rest at the top of the ramp at the height of 0.21 m. The hollow…

A: Given Data: Ramp height, ht=0.21 m Hollow sphere initial velocity, u=0 Bottom height, hb=0.05 m…

Q: A spool of thin wire (with inner radius r= 0.40m, outer R= 0.55m, and moment of inertia Icm=0.79…

A: The inner radius of the wire is, r=0.40 m. The outer radius of the wire is, R=0.55 m. The moment of…

Q: A hollow ball has a radius of 2.47cm and a mass of 7kg and is rolling, it is traveling with a…

A: