The figure shows an arrangement of 15 identical disks that have been glued together in a rod-like shape of length L = 1.4600 m and (total) mass M = 160.0 mg. The arrangement can rotate about a perpendicular axis through its central disk at point O. (a) What is the rotational inertia of the arrangement about that axis? Give your answer to four significant figures. (b) If we approximated the arrangement as being a uniform rod of mass M and length L, what percentage error would we make in using the formula in Table 10-2e to calculate the rotational inertia? F ooooooooooooooo

The figure shows an arrangement of 15 identical disks that have been glued together in a rod-like shape of length L = 1.4600 m and (total) mass M = 160.0 mg. The arrangement can rotate about a perpendicular axis through its central disk at point O. (a) What is the rotational inertia of the arrangement about that axis? Give your answer to four significant figures. (b) If we approximated the arrangement as being a uniform rod of mass M and length L, what percentage error would we make in using the formula in Table 10-2e to calculate the rotational inertia? F ooooooooooooooo

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

See similar textbooks

Related questions

Q: The figure shows three 0.0163 kg particles that have been glued to a rod of length L=5.57 cm and…

Q: Two wheels A and B in the figure are connected by a belt that does not slip. The radius of B is 2.82…

Q: A 870 kg car has four 14 kg wheels. When the car is moving, what fraction (K rotational /K total) of…

Q: Four particles, each of mass 0.13 kg, are placed at the vertices of a square with sides of length…

A: m=0.13 Kg a=0.58 m

Q: The figure shows three 0.0105 kg particles that have been glued to a rod of length L=6.50 cm and…

Q: A diagram of a hypothetical 40 cm long arm is shown. For the purposes of answering this question,…

A: Disclaimer: “Since you have asked posted a question with multiple sub-parts, we will solve the first…

Q: Four particles, each of mass 0.14 kg, are placed at the vertices of a square with sides of length…

Q: The figure shows three 0.0176 kg particles that have been glued to a rod of length L=6.16 cm and…

Q: The assembly can rotate around a perpendicular axis through point O at the left end. If we remove…

Q: The figure shows three 0.0147 kg particles that have been glued to a rod of length L=5.64 cm and…

Q: The figure shows three 0.0163 kg particles that have been glued to a rod of length L=5.62 cm and…

Q: A force of F = 80.0 N is applied tangentially to a wheel of radius R = 0.500 m and gives rise to an…

A: Given, tangential force F= 80 N radius of wheel R = 0.500 m…

Q: The figure shows three 0.0133 kg particles that have been glued to a rod of length L-5.84 cm and…

Q: Four particles, each of mass 0.15 kg, are placed at the vertices of a square with sides of length…

A: Given:mass, m = 0.15…

Q: radius R = 0.82 m rotates in the z-y plane as shown. Write an expression for the magnitude of…

Q: Calculate the rotational inertia of a meter stick, with mass 0.746 kg, about an axis perpendicular…

A: In the given question , We have to determine the required rotational inertia of the stick.

Q: he figure shows three 0.0183 kg particles that have been glued to a rod of length L=5.56 cm and…

Q: In the figure, two particles, each with mass m = 0.80 kg, are fastened to each other, and to a…

A: mass of particles , m = 0.8 kg mass of rod , M = 1.1 kg Angular speed , ω = 0.34 rad/s d = 5.4 cm =…

Q: A section of hollow pipe and a solid cylinder have the same radius and mass. The length of the solid…

Q: Two wheels A and B in the figure are connected by a belt that does not slip. The radius of B is 4.81…

Q: The figure shows three 0.01 kg particles that have been glued to a rod of length L=6 cm and…

Q: The figure shows three 0.0179 kg particles that have been glued to a rod of length L=6.40 cm and…

A: Given:- L= 6.4 cm= 6.4×10^-2 m d= L/3 = 2.133×10^-2 m m= 0.0179 Kg Initial Moment of inertia:- I=…

Q: include units

A: a)The rotational inertia is 0.0248267kgm2b)The kinetic rotational energy is…

Q: In the figure below, two particles, each with mass m 0.85kg, are fastened to each other, and to a…

A: The particles are treated "point-like" which shows their rotational inertia, and the rotational…

Q: The figure shows three 0.0113 kg particles that have been glued to a rod of length L=6.07 cm and…

A: The mass of each of the particle is m=0.0113 kg The length of the rod is L=6.07 cm

Q: A 80 kg astronaut rotates around his space ship on a string. He has a ri = 8 m radius of rotation,…

A: Given data: The mass of the astronaut is m=80 kg. The initial radius of rotation of the astronaut…

Q: The figure shows three 0.0197 kg particles that have been glued to a rod of length L=6.44 cm and…

Q: Calculate the rotational inertia of a meter stick, with mass 0.690 kg, about an axis perpendicular…

Q: The figure shows three 0.0121 kg particles that have been glued to a rod of length L=6.41 cm and…

Q: The figure shows a uniform disk that can rotate around its center like a merry-go-round. The disk…

A: +

Q: A helicopter has two blades (see figure), each of which has a mass of 240 kg and can be approximated…

A: Given: The mass of each blade is 240 kg. The length of the blade is 6.7 m. The angular speed is 57…

Q: The rigid object shown below consists of three balls and three connecting rods, with M = 1.6 kg, L =…

A: The kinetic energy of an object or particle is the energy it possesses due to movement. The…

Q: The figure shows three 0.0138 kg particles that have been glued to a rod of length L=5.71 cm and…

Q: The figure shows three 0.0133 kg particles that have been glued to a rod of length L=6.23 cm and…

Q: Two wheels A and B in the figure are connected by a belt that does not slip. The radius of B is 4.84…

Q: The figure shows three 0.0132 kg particles that have been glued to a rod of length L=5.80 cm and…

A: Initial moment of inertia, I0=md2+m2d2+m3d2=14md2

Q: The figure shows three 0.0106 kg particles that have been glued to a rod of length L=6.04 cm and…

Q: The figure shows three 0.0127 kg particles that have been glued to a rod of length L=6.46 cm and…

A: Given, Length of the rod=6.46m Mass=0.0127kg

Q: The figure shows three 0.0120 kg particles that have been glued to a rod of length L=6.36 cm and…

A: Moment of inertia: A measure of a body's propensity to resist angular acceleration that adds up the…

Q: The figure shows three 0.0120 kg particles that have been glued to a rod of length L=6.36 cm and…

Q: The figure shows three 0.0125 kg particles that have been glued to a rod of length L=6.17 cm and…

Q: The figure shows three 0.0133 kg particles that have been glued to a rod of length L=6.23 cm and…

Q: The figure shows three 0.0147 kg particles that have been glued to a rod of length L=6.01 cm and…

Q: The three 550 g masses in the daigram are connected by massless, rigid rods to form a triangle. What…

Q: Two wheels A and B in the figure are connected by a belt that does not slip. The radius of B is 5.68…

A: Given Radius of B is 5.68 times the radius of A. Let radius of A is rA and radius of B is rB. Now…

Concept explainers

Angular Momentum

The momentum of an object is given by multiplying its mass and velocity. Momentum is a property of any object that moves with mass. The only difference between angular momentum and linear momentum is that angular momentum deals with moving or spinning objects. A moving particle's linear momentum can be thought of as a measure of its linear motion. The force is proportional to the rate of change of linear momentum. Angular momentum is always directly proportional to mass. In rotational motion, the concept of angular momentum is often used. Since it is a conserved quantity—the total angular momentum of a closed system remains constant—it is a significant quantity in physics. To understand the concept of angular momentum first we need to understand a rigid body and its movement, a position vector that is used to specify the position of particles in space. A rigid body possesses motion it may be linear or rotational. Rotational motion plays important role in angular momentum.

Moment of a Force

The idea of moments is an important concept in physics. It arises from the fact that distance often plays an important part in the interaction of, or in determining the impact of forces on bodies. Moments are often described by their order [first, second, or higher order] based on the power to which the distance has to be raised to understand the phenomenon. Of particular note are the second-order moment of mass (Moment of Inertia) and moments of force.

Question

The figure shows an arrangement of 15 identical disks that have been glued together in a rod-like shape of length L = 1.4600 m and
(total) mass M = 160.0 mg. The arrangement can rotate about a perpendicular axis through its central disk at point O. (a) What is the
rotational inertia of the arrangement about that axis? Give your answer to four significant figures. (b) If we approximated the
arrangement as being a uniform rod of mass M and length L, what percentage error would we make in using the formula in Table 10-2e
to calculate the rotational inertia?
ooooooooooo
(a) Number i
(b) Number i
Units
Units

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1: Concept Used

VIEW

Step 2: Distance of the disc centers from the axis of rotation

VIEW

Step 3: Moment of inertia due to discs on one side

VIEW

Step 4: Total moment of inertia Part A

VIEW

Step 5: Substituting the values :Part A

VIEW

Step 6: Part B Error Calculation

VIEW

Solution

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 7 steps with 6 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, physics and related others by exploring similar questions and additional content below.

Similar questions

Consider the 12.0 kg motorcycle wheel shown in the figure. Assume it to be approximately an annular ring with an inner radius of R₁ = 0.280 m and an outer radius of R₂ = 0.480 m. The motorcycle is on its center stand, so that the wheel can spin freely. R₁ (a) If the drive chain exerts a force of 1825 N at a radius of 5.00 cm, what is the angular acceleration of the wheel in rad/s²? rad/s2 (b) What is the tangential acceleration, in m/s², of a point on the outer edge of the tire? m/s² (c) How long in seconds, starting from rest, does it take to reach an angular velocity of 80.0 rad/s?
A bicycle has wheels of radius 0.320 m. Each wheel has a rotational inertia of 0.0800 kg⋅m2 about its axle. The total mass of the bicycle including the wheels and the rider is 77.0 kg. When coasting at constant speed, what fraction of the total kinetic energy of the bicycle (including rider) is the rotational kinetic energy of the wheels?
You are designing a flywheel to store kinetic energy. If all of the following uniform objects have the same mass and same angular velocity, which one will store the greatest amount of kinetic energy? Which will store the least? Explain. (a) A solid sphere of diameter D rotating about a diameter; (b) a solid cylinder of diameter D rotating about an axis perpendicular to each face through its center; (c) a thin-walled hollow cylinder of diameter D rotating about an axis perpendicular to the plane of the circular face at its center; (d) a solid, thin bar of length D rotating about an axis perpendicular to it at its center.
The figure shows three 0.0172 kg particles that have been glued to a rod of length L=6.24 cm and negligible mass. The assembly can rotate around a perpendicular axis through point O at the left end. If we remove one particle (that is, 33% of the mass), by what percentage does the rotational inertia of the assembly around the rotation axis decrease when that removed particle is (a) the innermost one and (b) the outermost one? (a) Number i (b) Number Axis Units Units |--d- m d m -d m
In the figure, two particles, each with mass m = 0.78 kg, are fastened to each other, and to a rotation axis at O, by two thin rods, each with length d = 5.5 cm and mass M = 1.3 kg. The combination rotates around the rotation axis with angular speed ω = 0.32 rad/s. Measured about O, what is the combination's (a) rotational inertia and (b) kinetic energy?
Calculate the rotational inertia of a meter stick, with mass 0.594 kg, about an axis perpendicular to the stick and located at the 41.3 cm mark. (Treat the stick as a thin rod.) Number i ! Units kg-m^2
The figure shows three 0.0186 kg particles that have been glued to a rod of length L=5.67 cm and negligible mass. The assembly can rotate around a perpendicular axis through point O at the left end. If we remove one particle (that is, 33% of the mass), by what percentage does the rotational inertia of the assembly around the rotation axis decrease when that removed particle is (a) the innermost one and (b) the outermost one? Axis (a) Number Units (b) Number Units
Four particles, each of mass 0.39 kg, are placed at the vertices of a square with sides of length 0.57 m. The particles are connected by rods of negligible mass. This rigid body can rotate in a vertical plane about a horizontal axis A that passes through one of the particles. The body is released from rest with rod AB horizontal, as shown in the figure. (a) What is the rotational inertia of the body about axis A? (b) What is the angular speed of the body about axis A at the instant rod AB swings through the vertical position? Rotation аxis A B (a) Number i Units (b) Number i Units
The figure below shows a rigid structure consisting of a circular hoop of radius R and mass m, and a square made of four thin bars, each of length R and mass m. The rigid structure rotates at a constant speed about a vertical axis, with a period of rotation of 6.6 s. Rotation axis 2R (a) Assuming R = 0.60 m and m = 6.0 kg, calculate the structure's rotational inertia about the axis of rotation. X kg • m2 (b) What is its angular momentum about that axis? kg • m2/s TRI
Solid spheres have a rotational inertia about an axis through their center of mass given by I = 2/5 M R2, where M is the mass of the sphere and R is the radius of the sphere. Consider a particular sphere of radius 1.2 m made out of a material of density 300 kg/m3. Using the parallel axis theorem, calculate the rotational inertia of the sphere about a parallel axis shifted 0.33 m away from the center. (Please answer to the fourth decimal place - i.e 14.3225)
Calculate the rotational inertia of a meter stick, with mass 0.322 kg, about an axis perpendicular to the stick and located at the 44.8 cm mark. (Treat the stick as a thin rod.) Number i ! Units kg-m^2
This problem illustrates the two contributions to the kinetic energy of an extended object: rotational kinetic energy and translational kinetic energy. You are to find the total kinetic energy Ktotal total of a dumbbell of mass m when it is rotating with angular speed ω and its center of mass is moving translationally with speed v. (Figure 1)Denote the dumbbell's moment of inertia about its center of mass by Icm. Note that if you approximate the spheres as point masses of mass m/2 each located a distance r from the center and ignore the moment of inertia of the connecting rod, then the moment of inertia of the dumbbell is given by Icm=mr2, but this fact will not be necessary for this problem. Find the total kinetic energy Ktot of the dumbbell. Express your answer in terms of m, v, Icm, and ω.