Q1: Given that lomega 1-3 radls, calculate the magnitude of lomega_B* 100 100 Your answer Q2: Giv...
(1) A 4m ladder has mass m= 10 kg. We assume that its centre of mass is half-way along its length. The ladder is leaning against a wall at an angle of 30° from the vertical, as shown in the figure. Suppose that the wall is frictionless smooth and slippery), and that the coefficient of static friction between the feet of the ladder and the floor is H. =0.6. Take the acceleration due to gravity to be g=10m/s" directed vertically...
Consider the ladder in 8.15. Compute the normal force again,
assuming a 75 kg man is standing on the ladder (a) at its midpoint
and (b) four fifths of the way up the latter.
I posted this question earlier but was very confused on how it
was answered and laid out. I am not understanding how to go about
this or what formulas to use.
I know the answers is (a) 130.95 N and (b) 194.2 N but I do...
A
non prismatic ABCD rod consists of a solid circular section segment
given 3 pieces of torque as shown. The given torque is M=1500,
N=1100, O=900 in Nm. Segments are divided equal length by length
600 mm. The diameters of each segment are a=80, b=65, and c=55 in
mm. The rods are made of steel with a sliding modulus of G = 80000
MPa. Calculate the maximum shear stress from the bar. Also
calculate the angle of rotation (in degrees)...
1. A thin rod of mass M and length d hangs vertically from a frictionless pivot attached to one end. A piece of clay of mass m moving horizontally at a speed v hits the rod a distance x from the pivot and sticks to it. Discussion Questions: (In the first 5-10 min a random group will be selected to explain.) • What “type” of collision is happening? What is and is not conserved? • Consider the analogous linear momentum...
please do all ! thank you
INSTRUCTIONS: Answer the subsequent set of questions to solve the "Goal of this problem. We recommend you write out your answer to compare to the particular questions as you go along, as if you were going to submit it fully SETUP: As shown in the figure, a painter climbs along a uniform ladder leaned up against a smooth wall. There is static friction between the feet of the ladder and the ground. The painter...
Hi,
I need the full worked solution for parts (ii) and
(iii) of this question please :) The final answers to all
parts are given below the questions. I do not need the solution to
part (i). Thank you for your help! (Would greatly appreciate proper
steps with clear handwriting thank you~)
Question 5 A ladder of mass m may be modelled as a uniform rod of length a, stands on a rough horizontal surface at A and rests against...
please answer CORRECTLY only if you are sure of your answer to
help me understand this thanks
3. A wheel starts from rest (at t = 0) and begins to rotate with constant angular acceleration a. The wheel rotates through 500 rad and reaches an angular velocity of 20 rad/s at time t. Find the time t. HINT: First find the angular acceleration a. a) b) 30 s 40 50 60 70 d) e) 4. A force F of magnitude...
Hello, can you do the question?
The flywheel is subjected to a torque of M = 75 N.
m
The other photo was wrong. This photos are
important
CHW11 Problem 11.10 The third Watch Wallande Blue Part A De the Presher Express yetem of the verbs Wande VALLC ? P Rutten Pro Figure Stats MTE1920 Problem 119 Part 5 FIN FONI Figure - degi FIN) Part A Determine the magnitude of force P needed to hold it in equilibrium for...
please
answer unsolved questions
This assignment is set up for sequential assessment Complete each question and submit the answer before moving on to the next question Correct answers for each question will be made available once the maximum number of attempts have been made for each submission length of Ladler -7.om Static Equilibrium - Ladder Comprehensive As shown in the figure, the top of a 7.0 m long ladder (mass 2 -20 kg) leans against a frictionless wall. The bottom...
I need the answer for QUESTION 4 not 3.
4. Consider your answer to the previous problem (part a). Assume m1 = 4.00 kg, m2 = 2.00 kg and the pulley has a radius of R = 6.00 cm and a mass M = 3.00 kg. The magnitude of the frictional torque exerted on the pulley is 0.500 N.m. (a) Starting from rest, how long does it take for the 4.00 kg block to reach the floor, which is 1.0...