Answered: ШПППГ m

Science

Advanced Physics

ШПППГ m

Related questions

Q: Sheet No(4) O/A horizunt ul axle AB, Im Lang is pivited at the mid point C It Carries aweight f 2kg…

A: DATA GIVEN:- length of axle = 1m, as it carries 2kg at point A, so its weight at A is (WA) = 2…

Q: A 2kg disk has a radius of 18cm and rotates with an angulas acceleration of 12 rad/s^2 about an axis…

A: (given) Mass (m) of a disk = 2 kg Radius (r) of a disk = 18 cm…

Q: A mass m hangs from a string wrapped around a pulley of radius r. The pulley has a moment of inertia…

Q: A wheel with a radius of 0.5 m and a mass of 100 kg turns freely at 50 rev/min. The wheel can be…

A: Given data: The radius of wheel is r=0.5 m. Mass of wheel is m=100 kg. Velocity of wheel is N=50…

Q: For the position shown where 0 = 53°, point A on the sliding collar has a constant velocity of…

Q: Two wheels of moment of inertia 3.0 kg.m² and 6.6 kg.m² are set in rotation with angular speed 4.1…

A: Given: I1 = 3.0 kg.m2 I2 = 6.6 kg.m2 ω1 = 4.1 rad/s ω2 = 1.8 rad/s

Q: a moment of inertia of

Q: The ends of the rod AB can slide in the guide given in the figure. The end point of A has the…

A: Given: Velocity and Acceleration at an instant, Velocity VA= 6 m/s Acceleration aA= 5 m/s

Q: A flywheel turns at 480 rpm. Compute the angular speed at any point on the wheel and the tangential…

A: Given, A flywheel turns at 480 rpm. It means flywheel making 480 revolution per minute. In one…

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

Q: a cylinder of mas m and radius R has amoment of inertia of 1/2 mr2. the cyinder is released from…

A: (given) m is the mass of a cylinder, R is the radius of the cylinder, h is the height of cylinder on…

Q: 30% 25 N 20° 45° C 2.4 m 10 N 4.8 m- 30 N (a) What is the net torque (in N m) on the bar about an…

A: Solution Given datar=2.4mR=4.8mForce F1=25N,F2=10N,F2=30NCalculate net torque on the bar about…

Q: Part (a) Express the torque of F1 on cd, with respect of the axis ef, in terms of F1 and L2. τcd…

Q: 1. A flywheel turns at 480 rpm. Compute the angular speed at any point on the wheel and the…

A: Given, Flywheel turns r = 480 rpm = 480/60 = 8 rps Tangential radius = 30 cm = 0.3 m

Q: Consider a wheel with four spokes as shown below. The radius of wheel is r = 0.21 m. The mass of the…

A: Given r=0.21mM=0.6kgm=0.19kg

Q: Calculate the net torque (magnitude and direction) on the beam in the figure below about the…

Q: include units

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

Q: a.) Through how many radians does the machine turn while it is gaining speed b.) Make plots of θ, ω…

Q: The angular velocity of a wheel rotating on a horizontalaxle points west. In what direction is the…

A: The equation relating the angular velocity isv=w x rr=radiussw=angular speedv=-i∧xj∧ =-k∧∴ Linear…

Q: Answer the attach question.

A: This is a problem base on Hydrogen atom theory postulated by Bohr m vA2rn=14πε0NZe2rn2cancelling one…

Q: Propeller blades in accopolare are 2m Long @ when propeller colating at 1800 rev/min compute…

A: We need to find-(a) Tangential velocity of tip of blade (V1)=?(b) Tangential velocity at point…

Q: Find the moment of inertia about the z-axis for a constant density circular cone with base radius 7…

A: Answer the following question is

Q: THE WEIGHT W = SON IS ATTACHED TO ONE END OF A ROPE THAT PASSES OVER A PULLEY THAT IS FREE TO ROTATE…

A: Given: W=50N To find: Pin reaction at A

Q: Can you explain how the parallel axial theorem applies to a? The wheel is spinning around its own…

Q: An object of mass 0.5 mg kg attached to a rod of length 0.5 m is whirled in a vertical circle at…

A: To find-(a) speed of stone (V)=?(b) Frequency of rotation (n)=?Given that-Mass of object (m)=0.5…

Q: The link BC is fixed at point D and freely rotates about this point. The collar B can slide through…

A: Given The link BC is fixed at point D and freely rotates about this point. The collar B can slide…

Q: A copper wire has a resistance of 0.5000at 20.0°C, and an iron wire has a resistance of 0.525 at the…

A: Given that-Initial resistance of the copper wire, R0Cu= 0.500ΩInitial resistance of the iron wire,…

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

Q: Auheel With a radius of O,21 m cnd a mass of 6.04 ka spins about its axis at a.69 radians Der…

Q: The anguar dispacement fo a rotating body is given by 0 44.8 Hint Calculations in rad mode. OA 6O80…

A: Answer is Option A) 6080 rad/s2Explanation:We know, angular acceleration is equal to second derative…

Q: The rod in the figure slides with its ends in contact with the floor and the inclined plane. At the…

Q: R19-5. The spool has a weight of 30 lb and a radius of gyration ko is applied to the cord at A,…

A: FBD of the diagram.

Q: PROBLEM 1. For the figure shown, resolve each load into components normal and tangential to AC. for…

Q: After being at rest a carousel starts rotating around its axis with a constant angular acceleration…

Q: törque (magnitude and direction) on the beam in the figure below about the following axes. 25 N 30°…

Q: The figure below shows a cylinder of radius 20 cm and mass 10 kg. The cylinder is pulled up by a…

A: Given that:- Mass of block=20kg

Q: A bar magnet is 18.00 cm long and 2.50 cm wide, with a mass of 125.0 g. Determine the moment of…

A: Disclaimer: Since you have asked multiple questions, we will solve the first question for you. If…

Q: A mass of 0.37 kg is fixed to the end of a 1.6 m long string that is fixed at the other end.…

A: Mass of object, m=0.37kg Length of string, l=1.6m Initial angular velocity, ωi=0 Angular…

Q: A homogeneous wheel is released from rest and rolls without slip on a wedge. The wedge is at rest…

A: According to the above given question, we have the information as:- On a wedge, a wheel is released…

Question

Determine the deflection at C and the slopes at the bearings A and B. EI is constant.

Expert Solution

Step 1

Given:

Lengths are given in figure.

Step 2

The equation for deflection at point B due to point A can be given by,

$\begin{array}{rcl} t_{B / A} & = & \frac{1}{2} (\frac{- P L}{2 E I}) (\frac{L}{2}) (\frac{L}{6}) \\ = & \frac{- P L^{3}}{48 E I} \end{array}$

The equation for deflection at point C due to point A can be given by,

$\begin{array}{rcl} t_{C / A} & = & \frac{1}{2} (\frac{- P L}{2 E I}) (\frac{L}{2}) (L) \\ = & \frac{- P L^{3}}{8 E I} \end{array}$

Step 3

The equation for net deflection at point C can be given by,

$Δ_{C} = |t_{C / A}| - (\frac{L}{\frac{L}{2}}) |t_{B / A}|$

Substitute the required values in the above equation to obtain the net deflection at C.

$Δ_{C} = |\begin{array}{rcl} \frac{- P L^{3}}{8 E I} \end{array}| - (2) |\begin{array}{rcl} \frac{- P L^{3}}{48 E I} \end{array}| Δ_{C} = \begin{array}{rcl} \frac{P L^{3}}{8 E I} \end{array} - \begin{array}{rcl} \frac{P L^{3}}{24 E I} \end{array} Δ_{C} = \begin{array}{rcl} \frac{P L^{3}}{12 E I} \end{array}$