(b)The 11.5 kg slender rod pivoted about point O is pressed against a spring atpoint 4, in which the spring (k = 375 kN/m) is compressed by 27 mm, as shownin Figure Q2(b). At this instance, the rod is at horizontal position and isstationary. If the rod is released from this position,By using the principle of conservation of energy, explain withcalculations on how changing the mass of the rod would influence thedownward reaction of the pivot when the rod passes through a verticalposition.(6)(ii) From your working in Q2(bX(i), explain two possible ways to increasethe angular velocity of the rod when the rod passes through a verticalposition.92 (b). (Continued)1.75 m0.65 mABFigure Q2(b)

When we supress the slender and spring in oppsite direction then angular velocity increases.

Answered: (ii) From your working in Q2(bXi),…

(ii) From your working in Q2(bXi), explain two possible ways to increase the angular velocity of the rod when the rod passes through a vertical position.

Related questions

Q: I am having trouble understanding this entire section. First is the particle spinning around the…

A: Angular momentum of particle about origin is given byaccording to cross-product of vectors, angular…

Q: (Q4]For the following fiels equations which one is rotational and which one is irretational 1-…

A: A vector field is said to be irrotational when the curl of the vector field is zero. ∇×F=0 where F…

Q: 3. A thin ring of radius 5 cm is placed on plane z=2 so that its center is at (0, 0, 2 cm). If the…

Q: Convert 220 rad into revolutions (rev). Give the result in the nearest whole number.

Q: equator shall be zero. (take, g =10 m/s² for the acceleration Find the imaginary angular velocity of…

A: Angular velocity is the rate of velocity at which an object or a particle is rotating around a…

Q: Constant Angular Acceleration Δω- ) - ) - α Δ t (5-18) %3D (5-19) AO =;(@;+ @;) At AO = w; At + ¿a…

A: Solution:- Given that∆ω=ωf-ωi=α∆t (5-18)∆θ=12(ωf+ωi)∆t…

Q: Find the moment of inertia for a sphere of radius R rotating about its axis of symmetry and havir a…

Q: Convert 0.25π from radians to degrees

A: angle = 0.25 π radians Using π radians = 180oangle = 0.25 * 180 angle = 45o

Q: How can angular velocity be determined by angular acceleration?

A: Angular acceleration can be defined as the change in angular velocity of an object with respect to…

Q: Show that the moment of inertia of an elliptic area of mass M and Find the radius of semi-axes a and…

Q: (2)Convert from radians to degrees - rad 12n rad 5 12n rad 3 rad 2π rad

A: To find: radian to degree conversion

Q: An electric motor accelerates uniformly from 550. revolutions per minute to 30¯00 revolu- tions…

A: Given data- initial angular velocity ωi=550 rev/minute=550×2π/60=57.6 rad/s final angular velocity…

Q: A thin rod of mass M and length L is pivoted on a frictionless hinge at one end, as rest…

A: Determine the moment of inertia of the given rod about hinge by using the parallel axis theorem.…

Q: 2.) Determine the angular velocity of the rod and the velocity of point C at the instant shown 4 m…

Q: 15) An object of mass 0.5 kg., moving in a circular path of radius 0.25 m, experiences a centripetal…

Q: An object completes 0.5 revolution in half a minute. What is its approximate angular velocity?…

A: Answer:- (c) 0.10 rad/s Given Frequency(f) = 0.5 revolution in half a minute f = 0.5 rev/30sec…

Q: he slender bar of length l and mass m is pinned to verical shaft at O, the vertical shaft rotates…

A: The torque (τ) acting on the slender bar is caused by the gravitational force. It is given…

Q: (II) A cooling fan is turned off when it is running at 850 rev/min. It turns 1350 revolutions before…

Q: Should i use radius or radian to transform linear quantity to angular?

A: Linear quantities can be converted to angular quantity by Radius, using radius is most appropriate…

Q: is mentioned in the slide that the rod is released from rest as such, the acceleration in the normal…

Q: tia 10 kg m² Vigt is the required average power? g at 50 rad/s. It must be brought to stop in 10 s.…

A: Work done on a body is equal to the increase in the energy of the body, for work transfers energy to…

Q: Problem#3: Calculate the time the centripetal and tangential accelerations of a point on the rim of…

A: The centripetal acceleration of the object is, ac=v2r=r2ω2r=ω2r The tangential acceleration of the…

Q: The angle an airplane propeller makes with the horizontal as a function of time is given by theta =…

A: Angular velocity is given as ω=dθdt…

Q: (1)Convert from degrees to radians 200 10 120 56° 600

A: To find: degree to radian conversion

Q: A discus in the hand of an elite athlete smoothly accelerates from a linear velocity of 0 m.s at the…

A: Given data: The initial linear velocity is vi=0 m/s. The final linear velocity is vf=23 m/s. The…

Q: A merry go round is a playground ride that consist of a large dismounted to that I can fully…

A: Given, Radius, R=1.2 m Mass of marry-go-round disk, M=221 kg Mass of small boy, m=46 kg Speed of…

Q: Assuming the orbit to be, to a first approximation, circular, calculate the angular speed of the…

Q: Ex 13: A particle revolves in a circle of radius 0.2 m at the rate of 300 r.p.m. calculate. (1) time…

A: To find-(1) Time period of revolution(2) Angular velocityGiven-r=0.2 mN=300 rpm=30060=5 Hz

Q: If the angular velocity in a Flying wheel increases regularly from (20) to (30) radial angle per…

Q: Given: ASF. A disc with radius r rolls down the hill without slipping (starting from rest). At the…

A: Solution:Form conservation of energy we have:mgh = 12mv2 + 12Iω2⇒mgh = 12mv2 + 12MR22vR⇒mgh = 12mv2…

Q: Observe the link between linear and angular acceleration.

Q: An amusement park ride (known variously as the Rotor, the Turkish Twist and the Graviton) consists…

A: Given-R=4 mμs=0.4The forces exerted on the rider, when the floor drops away, are-(i) The normal…

Q: (II) Suppose our Sun eventually collapses into a white dwarf,losing about half its mass in the…

A: Let initial mass of sun =M Mass after sun becomes a white dwarf is half of its mass before =M2…

Q: A disk, initially rotating at 136 rad/s, is slowed down with a constant angular acceleration of…

A: Given, ω0=136 rad/sα=-3.68rad/s2

Q: 1(d)(10) Collar A is moving at speed v, to the left on a horizontal rod. Link AB of length L…

A: Given, Speed of collar A,vA Length of AB,L Angle, θ

Question

(b)
The 11.5 kg slender rod pivoted about point O is pressed against a spring at
point 4, in which the spring (k = 375 kN/m) is compressed by 27 mm, as shown
in Figure Q2(b). At this instance, the rod is at horizontal position and is
stationary. If the rod is released from this position,
By using the principle of conservation of energy, explain with
calculations on how changing the mass of the rod would influence the
downward reaction of the pivot when the rod passes through a vertical
position.
(6)
(ii) From your working in Q2(bX(i), explain two possible ways to increase
the angular velocity of the rod when the rod passes through a vertical
position.
92 (b). (Continued)
1.75 m
0.65 m
A
B
Figure Q2(b)

Expert Solution

This question has been solved!

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

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step by step

Solved in 2 steps

SEE SOLUTION Check out a sample Q&A here

GET THE APP

About FAQ Academic Integrity Sitemap Document Sitemap

Contact Bartleby Contact Research (Essays)High School Textbooks Literature Guides Concept Explainers by Subject Essay Help Mobile App

GET THE APP

Privacy

Your CA Privacy Rights

Your NV Privacy Rights

Cookie Policy

About Ads

Manage My Data

bartleby, a Learneo, Inc. business