(Use relative motion analysis): A single pulley having both an inner and outer rim is pin connected to the block at A as shown. As the cord CF unwinds from the inner rim of the pulley with the velocity and acceleration shown, cord DE unwinds from the outer rim. At the instant shown, determine: (a) the angular acceleration of the pulley. (b) The acceleration of the block. F VF = 2 m/s 3 m/s² af = 50 mm D 25 mm A E

(Use relative motion analysis): A single pulley having both an inner and outer rim is pin connected to the block at A as shown. As the cord CF unwinds from the inner rim of the pulley with the velocity and acceleration shown, cord DE unwinds from the outer rim. At the instant shown, determine: (a) the angular acceleration of the pulley. (b) The acceleration of the block. F VF = 2 m/s 3 m/s² af = 50 mm D 25 mm A E

Related questions

Q: A light rigid rod of length = 1.00 m in length rotates about an axis perpendicular to its length and…

Q: A torque of 430. N-m acts on a flywheel. At the instant that the flywheel's angular speed is 52.0…

Q: The angular position of a point on a rotating wheel is given by 0= 6.32 +1.96t² +4.59t³, where is in…

Q: In the figure, two 6.10kg blocks are connected by a massless string over a pulley of radius 1.70 cm…

Q: At the instant shown, pointB has a velocity of 5 m to the right and accelerates at the rate of 20 m.…

Q: During the spin-dry cycle of a washing machine, the motor slows from 100 rad/s to 10 rad/s while…

A: The objective of the question is to find the magnitude of the angular acceleration of the motor…

Q: In Fig. each with mass m = 0.85 kg, are fas- tened to each other, and to a rota- two particles, M…

Q: YA R

A: Given: wheel radius = 50 cm Force = 15N is applied to Distance…

Q: The amusement park cabin shown in the figure moves rotationally around point O. The change speed of…

A: Given : a=10 b=7 r˙=0.1a m/s r=4m θ˙i=0.1rad/s…

Q: Using a forked rod, a 0.6-kg smooth peg P is forced to move along the vertical slotted path r= (0.5…

A: Both normal force and force can be calculated by taking equilibrium along the axis. TO begin with,…

Q: A solid 0.5350 kg ball rolls without slipping down a track toward a vertical loop of radius R =…

A: Given that - Mass of the solid ball Radius Height Acceleration due to gravity To Find - We have…

Q: A cylinder of radius 3.09 cm and a sphere of radius 6.47 cm are rolling without slipping along the…

A: Radius of cylinder rcyl=3.09cm and radius of the sphere rsph=6.47 cm. Let both the objects have mass…

Q: Probiem 2: A string is wrapped around a pulley with a radius of 3.0 cm and no appreciable friction…

Q: A 1.1kg bike wheel, is spinning 190rpm clockwise when a student applies a Frictional force as shown.…

A: Mass ( m ) = 1.1 kg Speed ( N ) = 190 rpm Force ( F ) = 2.3 N Radius ( r ) =( 5 × 10 ) cm = 0.5 m […

Q: For a short time the bucket of the backhoe traces the path of the cardioid r = 7.5(1 cose) m.…

A: Given r = 7.5×(1-cosθ) θ = 120° ω = 2 rad/s α = 0.2 rad/s2

Q: A solid cylinder of mass 55kg has length 37.7 cm and radius 11.7cm. The cylinder is rotating about…

A: Given: m = 55 kg L = 37.7 cm = 0.377 m r = 11.7 cm = 0.117 m ω = 171.7 rpm = 17.98 rad/s

Q: マ-vs thin cylinder towards of mass M and Radins R which is mounded on fixed vertical axis d <R. M is…

Q: TA TC C

Q: An 82-cn-diameter 360 g solid sphere is released from rest at the top of a 1.9-m-long. 19" incline.…

Q: A lelo-Nim torque a ts on a wheel withamoment of inertia 175 kg. m? If the wheel starts from rest,…

Q: When climbing into your childhood tree house you realize weight of mass m = 3.0 kg in the middle of…

A: We know that the torque is given as τ= Iα where I is the moment of inertia α is the angular…

Q: The angular position of a point on a rotating wheel is given by 0= 8.79 +1.71t² + 1.26t³, where is…

Q: The uniform solid block in the figure has mass 18.3 kg and edge lengths a = 0.952 m, b = 1.62 m, and…

A: Write the given values with the suitable variables. m=18.3 kga=0.952 mb=1.62 mc=0.0885 m Here, m is…

Q: In a bicycle, recall that chain ring is attached to the pedal and the sprocket to the rear wheel.…

A: The radius of the chain ring is, The linear velocity of the chain ring is,

Q: A cylinder of radius 3.34 cm and a sphere of radius 7.47 cm are rolling without slipping along the…

A: Given radius of cylinder= 3.34 cm radius of sphere = 7.47 cm rolling without slipping along the same…

Q: The wheel is moving to the right such that it has an angular velocity w = 2.4 rad/s and angular…

A: Solution: As per the given data,

Q: A string wrapped around the pulley in Figure 10.40 is pulled with a constant downward force of…

A: The magnitude of the force is The radius of the pulley is The moment of inertia of the pulley is…

Q: A car P travels along a straight road with a constant speed v = 54 mi/hr. At the instant when the…

Q: A woman sits in a rigid position on her rocking chair by keeping her feet on the bottom rung at B.…

Q: Current Attempt in Progress In the figure, wheel A of radius a- 7.23 cm is coupled by belt i to…

Q: The pulley rotates without friction. initial condition at rest R (in m/s^2) I M The moment of…

A: Given m = 13 kg R = 1.0 m λ = 0.55 We have to calculate the acceleration of the block.

Q: In the shown figure, the two pulleys are connected by a crossed belt. If the angular acceleration of…

Q: Starting from rest, a .60 m radius bicycle wheel starting from rest and accelerating at a constant…

A: Given that The radius of the bicycle wheel (r) = 0.6m Since it…

Q: 2.4 m B 30° plz help use g =9.8 The radius of a 6.2-kg wheel is 23.3 cm. The wheel is released from…

A: Write the given values with the suitable variables. m=6.2 kgr=23.3 cm=0.233 md=2.4 mt=7.7 s Here, m,…

Q: A bowler throws a bowling ball of radius R = 11 cm along a lane. The ball (the figure) slides on the…

A: As you already have the answer of the sub-parts (a, b, and c), we will solve the sub-parts (c and d)…

Q: An anemometer for measuring windspeed consists of four small metal cups, each of mass 120 g, mounted…

Q: A constant torque of 30.0 Nmappled to a grindstone whose moment of inertia is 0.170 kgm. Using…

Q: A cylinder of radius 2.59 cm and a sphere of radius 8.72 cm are rolling without slipping along the…

A: Both have same kinetic energy. The two objects have the same mass.

Q: A barbell spins around a pivot at its center (see figure). The barbell consists of two small balls,…

Q: You are given four objects. A Solid cylinder, a thin-walled hollow cylinder, a solid sphere, and a…

Q: As shown in the figure below, wheel A has a radius of 10 cm and is attached by a belt to to wheel C…

A: Angular Acceleration The angular acceleration of an object about a point is the rate of change of…

Q: A 325-kg merry-go-round with a radius of 1.50 m is spinning counterclockwise, as viewed from above,…

Q: Agyroscope starts from rest and reaches a top angular speed of 9.75 rad/s in 2.3 seconds. What is…

Q: A bicycle tire is spinning clockwise at 3.10 rad/s. During a time period At = 1.70 s, the tire is…

A: Given that:- Time duration is given as 1.70sec

Question

100%

(Use relative motion analysis): A
single pulley having both an inner and outer rim
is pin connected to the block at A as shown. As
the cord CF unwinds from the inner rim of the
pulley with the velocity and acceleration shown,
cord DE unwinds from the outer rim. At the
instant shown, determine: (a) the angular
acceleration of the pulley. (b) The acceleration of the block.
F
"F= 2 m/s
a F = 3 m/s²
50 mm
D
O
25 mm
A
E

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

VIEW

Step 2

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 2 steps

SEE SOLUTION Check out a sample Q&A here

Follow-up Questions

Read through expert solutions to related follow-up questions below.

Follow-up Question

Can you tell me why the angulr velocity is V_f (tangent V) divided by the radiai sumed. Is there a way to get that angular velocity using the relative velocities expression?

Solution