Please solve with applying newton law. I need full work with full steps please Apply Newton's second law to these problemsProblem B-3-12In the mechanical system shown in Figure 3-42, assume that the rod is massless, per-fectly rigid, and pivoted at point P.The displacement x is measured from the equilibri-um position. Assuming that x is small, that the weight mg at the end of the rod is 5 N,and that the spring constant k is 400 N/m, find the natural frequency of the system.2amgFigure 3-42 Mechanical system.

Answered: Apply Newton's second law to these…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Two gas struts with a extended length of 26", compressed length of 16" and a stroke of 10" with a .39" rod and .866" body is being used to hold a door weighing 40 lbs. prior to use, the owner would like to ensure the ball bearings can hold the load of the gas struts closed. The gas strut is a 20 lb compression gas strut, how much force does it take to keep gas strut closed if you were to push straight down in order to compress. Note: The answer is not 20lbs and I need all equations.
Please solve only 3 and 4
You’re using a system of multiple simple machines to move a 1500 N load up a height of 2 meters. You have a wheel barrow which is a combination of a lever and a wheel/axle, and you’ll be using a ramp (inclined plane).a. If you want to apply a maximum effort force of 50 N – what does the actual mechanical advantage of the compound machines need to be? b. The wheel barrow in problem above has the following dimensions Wheel axle radius: 7.5 cmWheel outer radius: 25 cmLoad distance to fulcrum: 55 cm Handle distance to fulcrum: 200 cmWhat is the wheel barrow’s total ideal mechanical advantage? c. Due to a rusty wheel axle, the wheel-barrow in problem above only has an efficiency of 65%. What is the actual mechanical advantage of the wheel barrow?
A 6-spline shaft and to slide when not under load has a diameter of 2.5 inches, if shearing force is 2450 Ibs. If hub length is 2 inches. Find A. The shearing stress, kPa. B. Compressive stress in MPa. C. Torque in ft- Ib.
Please answer in this format. Sketch: Given: Required: Solution: (Please answer in detailed (step by step). Indicate labels on what you are doing/performing, for example what formula is used) A torque To is transmitted between two flanged shafts by means of four 20-mm bolts. diameter of the bolt circle is 2=150mm. If the allowable shear stress in the bolts is 90 Mpa, what is the maximum permissible torque? Disregard friction between between flanges. The To
HELPPP NOWOWOOW PLESE FILL IN THE BLANKS ON THE PAPER THING AND SHOW WORK
Required information A 24-mm-diameter uniform steel shaft is 600 mm long between bearings. Take the value of acceleration due to gravity g to be 9.81 m/s2, the value of y for carbon steel to be 76.5 x 103 N-m-3, and the value of Eto be 207 x 10⁹ N/m². NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. If the goal is to double the critical speed, what is the new diameter in mm? (You must provide an answer before moving to the next part.) The new diameter is mm.

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