The table that follows lists four pairs of initial and final angular velocities for a rotating fan blade. The elapsed time for each of the four pairs of angular velocities is 2 s. For each of the four pairs, find the average angular acceleration (magnitude and direction as given by the algebraic sign of your answer). (a) (b) (c) (d) Initial angular velocity wo +2.0 rad/s +4.0 rad/s -7.0 rad/s +3.0 rad/s Final angular velocity w +7.0 rad/s +1.0 rad/s -4.0 rad/s -3.0 rad/s

The table that follows lists four pairs of initial and final angular velocities for a rotating fan blade. The elapsed time for each of the four pairs of angular velocities is 2 s. For each of the four pairs, find the average angular acceleration (magnitude and direction as given by the algebraic sign of your answer). (a) (b) (c) (d) Initial angular velocity wo +2.0 rad/s +4.0 rad/s -7.0 rad/s +3.0 rad/s Final angular velocity w +7.0 rad/s +1.0 rad/s -4.0 rad/s -3.0 rad/s

Principles of Physics: A Calculus-Based Text

5th Edition

ISBN:9781133104261

Author:Raymond A. Serway, John W. Jewett

Publisher:Raymond A. Serway, John W. Jewett

Chapter3: Motion In Two Dimensions

Section: Chapter Questions

Problem 30P: A point on a rotating turntable 20.0 cm from the center accelerates from rest to a final speed of...

See similar textbooks

Similar questions

The Wheel of Fortune is divided into twelve angular sections, each of which is 30 degrees. Determine the total number of revolutions when the wheel stops. The deceleration of the wheel has a magnitude of 1.19 rev/sec^2 and the initial angular velocity is 3.06 rev/sec.
Please answer the following question(s): 1. A helicopter blade spins at exactly 130 revolutions per minute. Its tip is 5.00 m from the center of rotation. Hint: What is the shape of the path described by the helicopter blade? How do you find the length of this path? (a) What is the total distance traveled by the tip per minute? Enter to 3 significant figures Distance: m (b) What is the average speed of the tip of the blade? Enter to 3 significant figures Average speed: m/s (c) What is the average velocity over one revolution? Enter to 3 significant figures Average velocity: m/s
This figure (lal = 16.5 m/s?) represents the total acceleration of a particle moving clockwise in a circle of radius r = 1.70 m at a certain instant of time. 30.00 (a) For that instant, find the radial acceleration of the particle. m/s? (toward the center) (b) For that instant, find the speed of the particle. m/s (c) For that instant, find its tangential acceleration. m/s? (in the direction of the motion)
A Ferris wheel with radius 12.0 m is turning about a horizontal axis through its center in (Figure 1). The linear speed of a passenger on the rim is constant and equal to 6.40 m/s. A) What is the magnitude of the passenger's acceleration as she passes through the lowest point in her circular motion? (Express your answer with the appropriate units.) B) What is the direction of the passenger's acceleration as she passes through the lowest point in her circular motion? (Is it "Towards the center" or "outwards from the center"?) C) What is the magnitude of the passenger's acceleration as she passes through the highest point in her circular motion? (Express your answer with the appropriate units) D) What is the direction of the passenger's acceleration as she passes through the highest point in her circular motion (Is it "Towards the center" or "outwards from the center"?) E) How much time does it take the Ferris wheel to make one revolution? (Express your answer with the appropriate units.…
The Wheel of Fortune is divided into twelve angular sections, each of which is 30 degrees. Determine the total number of revolutions when the uheel stops The deceleration of the wheel has a magnitude of 1.09 revisec and the initial angular velocity is 7.29 revisec. 12 11 1 2 10 9 4 8 5 7 Round off answer to the nearest whole number. Input only the number. 3.
A centrifuge rotor with moment of inertia 2.48 is rotating with constant angular velocity 3.07. What is its change in angle, in radians, after 1.76 seconds? All quantities are given in SI units and the answer should be given as a positive number in Sl units. Only type a number into the answer box, do not type in units.
A turntable has a diameter of 40.0 cm. It rotates at a rate of 40 revolutions per second (rps) thanks to the action of a motor. It slows its speed evenly to 15 rps in 10 seconds. Calculate: d) The magnitude of the total acceleration vector.e) The angle, in radians, for the turns in that time interval.f) The arc length traveled by a point on the saucer in that time interval.
The sun appears to move across the sky, because the earth spins on its axis. To a person standing on the earth, the sun subtends an angle of Asun distance equal to its own diameter? 9.26 x 103 rad (see Conceptual Example 2). How much time (in seconds) does it take for the sun to move a carth Δθ Apparent motion of sun and actual motion of earth Number 1.27E Units S
This figure (Ja = 24.0 m/s?) represents the total acceleration of a particle moving clockwise in a circle of radius r = 3.00 m at a certain instant of time. 30.0° (a) For that instant, find the radial acceleration of the particle. m/s? (toward the center) (b) For that instant, find the speed of the particle. m/s (c) For that instant, find its tangential acceleration. m/s? (in the direction of the motion)
A bicycle wheel 67.0 [cm] in diameter rotates about its central axis with a constant angular acceleration of 4.48 [rad/s2]. It starts from rest at time t =0 [s], and a reference point on the wheel's rim P makes an angle of 60.0° above the horizontal at this time. When the wheel starts rotating, at time t=3.70 [s], A. what is the magnitude of the tangential acceleration of the wheel's rim? B. what is the angular speed of the wheel's rim? C. what is the tangential speed of the wheel's rim? D. what is point P's new angular position from the horizontal in radians? At t=1.50 [s], a small, 92.5 [g] pebble got stuck on the rim of the wheel. E. What is the pebble's moment of inertia with respect to the wheel's axis of rotation? F. At t=3.70 [s], what is the pebble's rotational kinetic energy?
An astronaut is being tested in a centrifuge. The centrifuge has a radius of 9.10 m and, in starting, rotates according to θ = 0.390t2, where t is in seconds and θ is in radians. When t = 2.60 s, what are the magnitudes of the astronaut's (a) angular velocity, (b) linear velocity, (c) tangential acceleration, and (d) radial acceleration? (a) Number Enter your answer for part (a) in accordance to the question statement Units Choose the answer for part (a) from the menu in accordance to the question statement radrad/srad/s^2kg·m^2N·mkg·m^2/srad^2/s^2 (b) Number Enter your answer for part (b) in accordance to the question statement Units Choose the answer for part (b) from the menu in accordance to the question statement This answer has no units° (degrees)mkgsm/sm/s^2NJWN/mkg·m/s or N·sN/m^2 or Pakg/m^3gm/s^3times (c) Number Enter your answer for part (c)…
The radial position r of a particle's path is defined by an equation, r = 5∙ cos (20) m. At the initial time, the angular position is 0 = 0° if the angular velocity of the particle is w= 3t² rad/sec, where It is in seconds, calculate the value of the e-component of acceleration at the instant 0 = 30° in m/sec².