Moment of inertia ferris wheel. A Ferris wheel has moment of inertia 2.

Moment of inertia ferris wheel Rotational Inertia • Remember 1. L = Iω. The radius of the London Eye, a huge observation wheel on the banks of the Thames, is $67. 16 rad/s in 11 s. 40 \( \text{kgm}^2$ and radius 10 cm. If the engine does a total of 3. In summary, the problem involves a Ferris wheel with a moment of inertia of 8. The moment of inertia, denoted by I, measures the extent to which an object resists rotational acceleration about a particular axis; it is the rotational analogue to mass (which determines an object's resistance to linear acceleration). Assume that there is a constant Moment of Inertia Moment of inertia, also called the second moment of area, is the product of area and the square of its moment arm about a reference axis. txt) or read online for free. To justify this sum to yourself, examine the definition of I : I = 28. When the motor is turned off, the wheel slows down (because of friction) to 7. A body of moment of inertia 5 kgm 2 rotating with an angular velocity 6 rad/s has the same kinetic energy as a mass of 20 kg moving with a velocity of . This changes its direction but not its magnitude, causing the tip of the axle to trace out a circle. ignore the wheel), so I think that you can consider them to be 36 separate point masses, where a point mass is something whose mass you consider to be concentrated at a single point in Moment of inertia of a Flywheel OBJECT: To determine the moment of inertia of a flywheel about its own axis of rotation. ) A Ferris wheel has moment of inertia 2. 94 \times 10^7 kg \cdot m^2 ) rotating at 9. 5 rev/hr. Where Ris the radius of the wheel, I tot is the total moment of inertia of the wheel and is the angular acceleration of the wheel. F=mg For the wheel, Angular displacement ϴ=2𝜋𝑁[ 𝑟𝑒𝑣. c. The wheel has a radius of 120 m and makes are complete revolution every 30 minutes. Assuming that all Let the mass m be at a height h above the ground. 5 rev/hr in 15 s. It should not be confused with the second moment of Find step-by-step Physics solutions and the answer to the textbook question The London Eye is the tallest Ferris wheel in Europe. The moment of inertia $I_x$ about the $x$-axis for the region $R$ is the limit of the sum of moments of inertia of the regions $R_{ij}$ about the $x$-axis. 0. It is located on the banks of the river thames in London. Theory: Flywheel is a device which absorb energy when demand is Less than the supply of energy ans will give out the energy when demand is more than the energy being supplied. 23 s. rotational inertia, or . (8), derived in the moment of inertia example, the moment of inertia of the disk is = at 5 digits Therefore, the moment of inertia of the disk is 12. A collar, shown at the rear of the table, allows you to increase the diameter of the spindle where the string wraps, should you wish to do so. Determine the moment of inertia of the wagon wheel for rotation about its axis. All three of these values are "conserved" under the law of conservation of energy. Studio: Angular Kinematics and Moment of Inertia Physics 140 - University of Michigan, Department of Physics Name: Problem 1 A Ferris wheel is initially rotating at an angular speed of 1 revolution every 15 seconds. 1 rev/hr in 11 seconds. The moment of inertia determines the wheel's tendency to rotate when a torque is applied and influences its angular velocity. A thin wire of length L and uniform linear mass density r is bent into a circular coil. When the motor is turned off, friction causes the wheel to slow down from 9. a) Determine the tor; Apparent weight on a Ferris Wheel -- here we talk about the direction of the centripetal acceleration and what happens if the normal force is zero (weightles There is no better example of physics at work than to look at amusement park rides. The moment of inertia is an important thing to know when solving problems that have to do with how things rotate. Using the formula for moment of inertia (I = MR²), the total inertia is Ferris wheels rely on balanced forces and torque to spin smoothly. 6 s. com for more math and science lectures!In this first of the two part series I will show you how to find the angular acceleration An electric motor can accelerate a Ferris wheel of a moment of inertia, I = 18,500 kg. 4. 1 rev/min in 12. Q3. Its moment of inertia can be determined experimentally by setting it in motion with a known amount of energy. Determine the torque generated by the mo-tor to bring the wheel to 9. 20 in Fixed-Axis Rotation to find moments of inertia of some common geometrical objects. The hollow sphere is just like the solid sphere, except that you would take the mass near the axis for the solid sphere and shove it outwards towards Practical-I M C T 3 3 Exp. When the mo-tor is turned off, friction causes the wheel to slow down from 9. It is the ratio between the torque applied and the resulting angular acceleration about that axis. Plugging everything in the moment of inertia formula ( 1/2*mass*radius^2 ) gives me a result of 0. Then I could convert the The original Ferris wheel built by George Ferris had radius 38 m and mass 1. 4 seconds. 9rev/min in 10. A motor keep a Ferris wheel (with moment of inertia 6. m2 from rest to 10. a) Determine the moment of inertia of the wagon wheel for rotation about its axis. 5 rev/hr despite friction? If a spinning wheel and axle is supported by one end of the axle, then the torque produced by the weight of the wheel and axle produces a torque that is perpendicular to the angular momentum of the wheel. a wheel having moment of inertia 2kgm2 about its vertical axis rotates at the rate of 60rpm about its axos the torque which can stop yhe wheel in one minute would b Q. When the motor is turned off, the wheel slows down (because of friction) to 13 rev/hr in 21 s. When the motor is turned off, friction causes the wheel to slow down from 11. Part A What is the net torque on the wheel? Express your answer using two significant figures. This means that the flywheel will continue its current motion until a force causes its speed or direction to change (in this case the masses on the end of the string). 9 rev/min. The London Eye is the tallest Ferris wheel in Europe. 055 kg attached to the other end, is wrapped around the side of the rotor and passes over a massless pulley (Figure 17. There are many variables involved such as mass moment of inertia, speed and most critical and often overlooked is Question: 10. 9 106 kg. Average velocity= 1 2 (ϴ+ωN)[rads/s] Time for N revolution=t seconds. It is closely related to the wheel's mass, radius, and the distribution of mass within it. The wheel has a radius of $120 \mathrm{~m}$ and makes one complete revolution every 30 minutes. 3 rev/hr. 6 rev/min to 8. 03-- Mounted bicycle wheel The moment of inertia of the ferris wheels is 1. The moment of inertia is a fundamental concept in rotational dynamics, providing a measure of an object’s resistance to changes in its rotational motion. 5 x 105 joules of work, calculate the number of revolutions the wheel makes as it accelerates. When the motor is turned off, the wheel slows down due to friction and reaches a speed of 3. Demonstration 28. It s located on the banks of the River Thames in London. 77 x 10' kg -m2) at 12 rev/hr. Angular velocity can be determined by knowing that the Ferris wheel completes one revolution in 30 minutes, which translates to an angular velocity of 2π radians per 30 The moment of inertia, otherwise known as the mass moment of inertia, angular/rotational mass, second moment of mass, or most accurately, rotational inertia, of a rigid body is defined relative to a rotational axis. When themotor is turned off, the wheel slows down (because of friction) to7. Question: Calculate the momentum of inertia of a 54−kg woman who is riding the Ferris wheel. 2 Second moments and the radius of gyration 3. 0 rev/min in 12. The larger the mass an object has, the greater its inertia. For calculating the braking force I need the moment of inertia of a 17 inch wheel (with tire), so that's about 18kg (from what I could find online, I don't have a wheel to weight). 38 kgm 2. The radius of the wheel is 0. If the engine does a total of 7. It plays the same role in rotational motion as mass does in linear motion. 6 rev/min in 14. (Revolutions are unitless. Question: A motor keep a Ferris wheel (with moment of inertia 1. In rotational motion, the distribution of mass around an axis must be considered, using moments of inertia. Another wheel of the moment of inertia 3I initially at rest is suddenly coupled to the same shaft. 9 rev/hr. Theory Moment of Inertia (I) can be understood as the ro-tational analog of mass. Boost your Physics grade with Calculating the Moment of Inertia for an Object around an Axis practice problems. I. The formula for the moment of inertia of a point mass is I = m*r². 040 rad/s2. 4 nn, Ground The moment of inertia of the wheel is equal to the sum of moment of inertia of rim and spokes. Calculate the\ (a) the momentum of inertia and\ (b) angular momentum of a $50 TABLE 1. 0 s. Hence A Ferris wheel rotates because a motor exerts a torque on the wheel. 7 mm. You will recall from Subsection 10. And this problem we have the moment of inertia of the ferris wheels 1. For angular momentum (L), it is the product of the moment of inertia and angular velocity (ω). 1. A 62 kg person sitting on a Ferris wheel seat is spinning at a constant speed at What is the total moment of inertia as the turntable spins? Ignore the mass of the turntable. JEE Main 2024 Question Paper Solution Discussion Live JEE Main 2024 Question Paper Solution Discussion Live. Comparing this This experiment investigates moment of inertia in a flywheel. The London Eye, which is a giant Ferris wheel, has a diameter of 135 m. If you have ever spun a bike wheel or pushed a merry-go-round, you know that force is needed to change angular To find the linear acceleration, I would calculate the centripetal acceleration of the Ferris wheel. Take the Ferris wheel, for instance. 0 m. 5 \mathrm{m}\) and its mass is \(1. A Ferris wheel, rotating initially at an angular speed of 0. The f So the moment of inertia considers the mass of the rotating object, its angular velocity (same as RPM), and the distance of its mass from the center of rotation. Express your answer in kilogram-meters squared. (a) Determine the torque generated by the motor to bring the wheel to 9. Read about the flywheel experiment and more. Rolling Motion without Slipping. * Incorrect; Try Again; 3 attempts remaining Part B Calculate the angular momentum of a 54−kg woman who is riding 九 Ferris wheel. Units for moment of inertia 2 Experiment 10: Moments of Inertia Advance Reading Text: Torque, Rotational Motion, Moment of Inertia. It revolves at a constant rate and takes 30 minutes to complete one revolution. IVO ΑΣΦ T 1 A string is wrapped around the rim of a wheel of moment of inertia 0. Approximate the Ferris wheel as a circular disk with a radius of 25 m. a) If the ride takes 20. Let the wheel execute n, rotations more before. This is the rotational equivalent of mass The moment of inertia of a rigid, extended A motor keep a Ferris wheel (with moment of inertia 6. Using the parallel-axis theorem, I tot can be written in terms of the moment of inertia of the wheel, I wheel, the moment of inertia of each dowel pin, I Question: An electric motor can accelerate a Ferris wheel of moment of inertia I = 18500 kg·m2 from rest to 9. The string is now pulled by a force of 40 N. The wheel is free to rotate about its axis. We do this using the linear mass density $\lambda$ of the object, which is the mass per unit length. 3284m (225/50R17). When the motor is turned off, the wheel slows down (because of friction) to 7 rev/hr in 28 s What was the power of the motor that kept the wheel rotating at 12 rev/hr despite fric- tion? rotating Answer in units of W. 17. Understanding the moment of AP Physics. By understanding and calculating the moment of inertia, we can better predict and control the behavior of rotating systems, making it an essential topic in physics and engineering. Apparatus used: Flywheel, a few masses, a strong and thin string, stop watch, vernier callipers. 49×107 kg⋅m2 ) rotating at 11rev/hr. Find the moment of inertia of ring of mass M and radius R about the axis passing through the ring diametrically. . 2 x 106 kg. 6 rev/min. If you have ever been on a Ferris wheel ride, you have been the subject of centripetal Question: A motor keeps a Ferris wheel (with moment of inertia 8. You may also find it useful in other calculations involving rotation. 24). cis of rotation is given by. com for more math and science lectures!In this video I will calculate the moment of inertia of a wagon wheel with eight spokes. 97 kg*m^2. Therefore, Angular displacement ϴ= 1 2 ωNt Example 17. which is the required answer to our question. Note that the radius of the spinning object also matters. 0 rotations. Then its rotational kinetic energy, E = ½ Iω 2. 1 Moment of inertia 3. It is interesting to see how the moment of inertia varies with r, the distance to the axis of rotation of the mass particles in Equation 10. m², and the centripetal acceleration the child experiences while moving in a circle of radius 10 m at a An electric motor can accelerate a Ferris wheel of moment of inertia 19200kgm2 from rest to 9. 90 \times 10^{6} \mathrm{kg} . Moment of Inertia. 3 The equation of rotational motion 3. Then the moment of inertia of the flywheel about the. And the angular displacement of the ferris field and uniform angular acceleration is of 2. The experiment aims to determine the moment of inertia of a flywheel using the falling weight method. (b) Determine the power that The next thing to do is figure out the moment of inertia of the thing that the torque is being applied to. Answer in units of N · m. 9 rev/min in 12. Theory: A flywheel is an inertial energy-storage device. A wheel having moment of inertia 2 k g m 2 about its axis, rotates at 50 rpm about this axis. The moment of inertia is calculated about three different axes. The higher the moment of inertia of the wheel, the more slowly the torsional pendulum will twist back and forth. 13 kg ⋅ m 2 + 56. Assuming that all of its mass was uniformly distributed along the rim of the wheel, if the wheel was Rotational motion is heavily involved in creating a working Ferris Wheel. 5 seconds. ] Where N=Number of revolutions. 0 rev/min in 10. For analyzing rolling motion in this chapter, refer to Figure 10. 97 × 107 kg · m2 ) rotating at 8. About Press Copyright Contact us Creators Advertise Developers Terms Privacy Policy & Safety How YouTube works Test new features NFL Sunday Ticket Physics Ninja looks at calculating the moment of inertia of a wheel with 3 spokes. 7 Revolution. For example, for a given angular acceleration α α, a smaller Ferris wheel leads A Ferris wheel has moment of inertia 2. 1rev/hr in 15 s. 9 times 10 to the five kilogram meters squared. When the motor is turned off, the wheel slows down (because of friction) to 6. RELATED QUESTIONS. When the motor is turned off, friction causes the wheel to In this activity you will observe the propulsion and braking mechanisms, measure the period of a Ferris wheel, and perform calculations on your measurements. 11 rev/min in 10. 1 Flywheel- Moment of inertia Aim: To find the moment of inertia of a fly wheel. 1 to 8. In summary, the problem asks for the rotational inertia of a Ferris wheel with 36 cars and a radius of 38m, given the mass of each car (1. The wheel has a radius of 120 m and makes one complete revolution every 30 minutes, calculate the a moment of inertia and be Angular Momentum of a 50 kg Woman who is writing the first wheel. So if you change any one of those variables, the others will adjust to compensate. However, we know how to integrate over space, not over mass. If a torque of 1 x 109 moment of inertia is 50. of the coil about tangential axis in its plane is . 8 x 105 joules of work, calculate the number of revolutions the wheel makes as it accelerates. State the theorem of parallel axes about moment of inertia. The radius of gyration is defined as (I/M)^1/2, or the square root of the moment of inertia divided by mass. Therefore, we can write the moment of inertia Lab 11 Moment of Inertia of a Fly Wheel - Free download as PDF File (. The moment of inertia of the wheel is I and the moment of inertia of the shaft is negligible. Then lineal velocity of the wheel is, v = ωr. Since the mass density of this object An electric motor can accelerate a Ferris wheel of moment of inertia 11300 kg · m2 from rest to 9. Newton’s First Law of Motion, also known as The child's moment of inertia riding a Ferris wheel is calculated as 4000 kg. 37 rev/min in 7. 0 kg·m2. 6 x 105 kg·m2. Moment of inertia of rim: Mass = 24M Distance from axis$ = l$ \[{I_R} = 24M{l^2}\] Moment of inertia of spokes: The spokes of the wheel are basically rods which are being rotated about one of their ends. Apparatus: The flywheel, weight hanger with slotted weights, stop clock, metre scale etc. View Solution. e. You can vary the moment of inertia of the horizontal rod by changing the position of the two brass masses, which are fastened by means of thumbscrews. 16 rad/s, accelerates over a 8. No. Note: Moment of inertia plays a role only when the body is rotating about an axis. 48. A 1 m diameter wagon wheel consists of a thin rim having a mass of 8 kg and six spokes each having a mass of 0. 0 kg Unknown: I Sasha’s favorite ride at the fair is the Ferris wheel that has a radius of 7. 85 x10^7 kgxm^2) rotating at 15 rev/hr. If the mass allowed to move down, the wheel will rotatenj times before the mass ##### released from the axle. 0 s to make one full revolution, what is A Ferris wheel has moment of inertia 2. A steel washer is mounted on a cylindrical rotor of radius r =12. 7): I DISK = 91634 g-cm ##### 2. What is its angular speed after this 8. 10-6 Rotational Inertia 10-7 An Example Problem Involving Rotational Inertia 10-8 A Table of Rotational Inertias 10-9 Newton’s Laws for Rotation image of a rotating Ferris wheel, note how the tracks left by the parts farther away from the center are longer than those made by parts closer to the center. 0e5 kg). Rotational motion involves force, velocity and acceleration. 9 to 7. Using Eq. A flywheel apparatus consists of a flywheel, hanger with known masses, weight, stopwatch and measuring tape. Given: m⫽ 15. A Ferris wheel in Japan has a radius of 50m and a mass of 1. Determination of Moment of Inertia of Disk (rotated about the center) mass of disk, M DISK = 1,402 grams radius of disk, R DISK = 11 cm Moment of Inertia of Disk (from Eqn. So I would need the velocity and radius of the rider. A massless string, with an object of mass m = 0. What was the power of the motor that kept the wheel rotating at 15 rev/hr despite friction? Answer in Watts The moment of inertia of the wheel about its axis passing through its centre and perpendicular to its plane is. 0-s interval? 162. Apparatus: An iron axle, a heavy wheel, some ropes, a mass, stopwatch, meter scale, slide calipers. Similarly, the greater the moment of inertia of a rigid body or system of particles, the greater is its resistance to change in angular velocity about a fixed axis of rotation. 4 that the polar moment of inertia is similar to the ordinary moment of inertia, except the the distance squared term is the distance from the element to a point in the plane rather than the perpendicular distance to an axis, and it uses the symbol $J$ with a subscript indicating the point. 5 rev/hr in 25 seconds. Moment of inertia is the name given MOMENT INERTIA OF A FLYWHEEL LAB REPORT - Download as a PDF or view online for free Provided that a is much greater than g. Tutorial video on an experimental method to find the Moment of Inertia of a Flywheel. 38 kg ⋅ m 2 . Question: A motor keep a Ferris wheel (with moment of inertia 4. 1 rev/min in 10. 1 to 2nd. And as long as we keep the deflection to low angles, it does not matter what angle we are actually twisting to; one of the characteristics of oscillating harmonic motion is that the period and frequency are independent of amplitude. The question asks for the power of the motor in watts that was able to maintain the Moment of inertia for a wheel with spokes (I=Moment of Inertia, R=radius, M=mass) 𝐼= 𝑅2 Moment of inertia for a solid tire (I=Moment of Inertia, R=radius, M=mass) 𝐼= 1 2 𝑅2 Moment of Inertia-measure of inertial resistance of the object to change in its rotational motion about the axis. The moments of inertia of a mass have units of dimension ML 2 ([mass] × [length] 2). linear acceleration, is known as inertia. Objective To determine the moment of inertia of a rotating sys-tem, alter the system, and accurately predict the new moment of inertia . , its centre of gravity lies on the axis of rotation. From the mechanical engineering feats that make a roller coaster, to the physical trickery of carnival games, a fairground is the most practical example of physics in action. 6 rev/hr in 17 s. What was the power of the motor that kept the wheel rotating at 8. A wheel is rotating freely with an angular speed ω on a shaft. a) Determine the torque The moment of inertia of a wheel is a crucial concept in physics that describes its resistance to angular acceleration. You are asked to consider the passengers only, (i. 2 x 105 kg·m2. 8 × 107 kg · m 2 ) rotating at 12 rev/hr. What was the power of the motor that kept the wheel rotating at 15 rev/hr despite friction? Answer in Watts Moment Of Inertia Of Flywheel - Here students will learn how to determine the moment of inertia using the formula along with its full derivation. Flywheel is simply a heavy wheel with a long axle which when properly supported in bearings may remain at rest in any position, i. moment of inertia, I. The equation for moment of inertia is different depending on the shape of the object, but for a flywheel (basically a solid The wheel can act as a massive pulley of variable moment of inertia that allows students to measure the moment of inertia of the bare wheel by applying a constant torque to the system. 0 points 007 A motor keep a Ferris wheel (with mo- ment of inertia 1. The resultant fractional loss in the kinetic energy of the system is: solid sphere-Because the rotational kinetic energy is given by the equation KrotKrot = 12Iω212Iω2, the object with the smaller moment of inertia would have to spin faster to obtain the same value for the rotational kinetic energy. 95x10^7 kg x m^2 and a motor that keeps it rotating at 6. pdf), Text File (. Initially the wheel is at rest. While the string remains taut the constraint that a= Rholds. 0s. st. 25 kg ⋅ m 2 = 84. Definition Definition Product of the moment of inertia and angular velocity of the rotating body: (L) = Iω Angular momentum is a vector quantity The Ferris Wheel Robotic Weld Positioner operates on a three-axis range of motion, facilitating a horizontal rotation, tilting and vertical load adjustments between two trunnion axes on each side of a central “Sweep” Axis. From rest, the operator starts the wheel and it accelerates for 19. What is the rotational kinetic energy, E Solution for A Ferris wheel has moment of inertia 2. \) For a hoop, the moment of inertia (I) can be calculated using the formula: \[I = M R^2\] where M is the mass of Suppose, the angular velocity of a wheel is ω and its radius r. The total moment of inertia is the sum of moments of inertia of the merry-go-round and the child (about the same axis). The angular velocity of the wheel after 10 s is x rad/s, where x is _____ . 0-s interval at a rate of 0. The time period is from 18. We therefore need to find a way to relate mass to spatial variables. When the motor is turned off, the friction causes the wheel to slow down from 10. mn, ##### n +n, o' W. Therefore, inertia is the relative amount of resistance to change that an object possesses. Torque (τ) and angular ac- An electric motor can accelerate a Ferris wheel of moment of inertia l = 22000 kg m^2 from rest to 11. 080 rad s 2 . Rigid bodies and systems . The operator of the wheel decides to bring it to a stop, and applies a brake that produces a constant deceleration of magnitude 0. • The property to resist changes in rotational state of motion is called . • rotational inertia To determine the moment of inertia of fly wheel by falling weight method. Engineers calculate the required torque to ensure steady motion, factoring in the wheel’s weight and Study the analogy between force and torque, mass and moment of inertia, and linear acceleration and angular acceleration. Formula used: The moment of inertia of a flywheel is given by following formula: − π π = = π π ω= × ⎟⎟ ⎠ ⎞ ⎜⎜ ⎝ ⎛ + − = ω 3. It absorbs mechanical energy and serves as a reservoir, storing energy during the The moment of inertia is related to the rotation of the mass; specifically, it measures the tendency of the mass to resist a change in rotational motion about an axis. The moment of inertia of an object about an axis The London Eye is the tallest Ferris wheel in Europe. friction mass = 20 grams radius of shaft, = 1 cm (mass of pan + mass added), m acceleration, a Moment of Inertia of Disk (from Eqn A motor keeps a Ferris wheel (with moment of inertia 8. comes to rest. Assume that the platform is initially at rest and the torque is applied for 12. the problem states the London Eye is the tallest ferris wheel in europe. A Ferris wheel is a vertical, circular amusement ride with radius 9 m. M. From rest, the operator starts the wheel and it accelerates for 13. 1e4 kg) and the mass of the wheel's structure (6. Newton’s law • An object rotating about an axis tends to remain rotating about the same axis, unless an external influence (torque, see soon) is acting. Visit http://ilectureonline. If all of the objects illustrated in the figure have equal masses, the moment of inertia about the indicated axis is largest for the ring. In linear motion, the resistance to a change of motion, i. 7s. What was the power of the motor that kept the wheel rotating at 12 rev/hr despite friction? Answer in units of W. It consists of a heavy wheel mounted on the axle and the axle is supported on small bearing. 11 Experimental Method for Determining Moment of Inertia . 4 Comparing translation and rotation The original Ferris wheel built by George Ferris had radius 38 m and mass 1. People have observed rolling motion without slipping ever since the invention of the wheel. Q. Moment of inertia about the x-axis: $\displaystyle I_x = \int y^2 \, dA$ What is the moment of inertia of this disk-shaped wheel? Solution:A disk is a thin cylinder, so the moment of inertia of a disk is the same as that of a cylinder. A 3000-kg Ferris wheel accelerates from rest to an angular speed of 0. 8 kg. The moment of inertia of the wheel is equal to the sum of moment of inertia of rim and spokes. If the engine The moment of inertia integral is an integral over the mass distribution. It is located on the banks of the River Thames in London. The diagram below shows Visit http://ilectureonline. The ferris field and uniform angular acceleration have a displacement of 2. That is Part a) Calculating the moment of inertia of the wheel. 94 x107kgm2 ) rotating at 9. When the motor is turned off, the wheel slows down (because of friction) to 9. 0 to 9. If the moment of inertia of a body is I and the wheel is rotating around an axle. VIDEO ANSWER: Hello guys. The moment of inertia of the flywheel is calculated A Ferris wheel with greater angular acceleration will give the riders greater tangential acceleration because, as the Ferris wheel increases its rate of spinning, it also increases its tangential velocity. gaxomqmg nquw vbebvuhb zxj jxnt mpjki kpawri sldoy milp gemf zxlpp nkcuftx xtynn tvwqtm oesqx