O Dash 0 Cour e phet (12509 Fo xMERL A PhysiFrictiO FrictiPhys Phys O Fricti 4.1WResor Forcei https://phet.colorado.edu/sims/htm/forces-and-motion-basics/latest/forces-and-motion-basics en.htmlB Anonymous CARS I Downloaders Emails Freebies Health Medicinal News Security Social Media Stocks History JAZZCForcessheedV Sum of ForcesV Values16.0 misV MassesV SpeedSum of ForcesFrictionNoneLots154NApplied ForceFriction Force346N50ON100 kgApplied Force500 Newtons D O-500500200 kg50 kg60 kg80 kgPHET:Forces and Motion: BasicsNet ForceI PHYSICS LABMotionFrictionAcceleration11:16 PMP e Snipping Toolg Forces and-DownloadsI PHYSICS LABPHYSELAB --W PHYSE EXPEPHYSELAB E E1/20/2021II. DATA AND COMPUTATION:Basing from the figure above;Calculate the mass of the gift box if the following data are asfollow:Frictional Force= 346 NApplied force= 500 NMass of trash bin= 100 kgMass of (malnourished ) girl = 40 KgSHOW YOUR SOLUTIONS BELOW (IMAGE OR ENCODED),USE 4 DECIMAL PLACES:

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Answered: II. DATA AND COMPUTATION: Basing from…

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Please answer the question in the picture, make sure you show all of the steps you make. Don’t type try to upload pictures of your work please.
2. A simply supported beam is carrying the following loads: Values . Pm (refer to the table at the next page) KN 100 KN w = (# of letters of your first name times 4) kN/m = 16 kN/m The beam has a rectangular cross-section with the following dimensions: b = 125 mm . • h = (refer to table at the next page) mm = 350 mm g = (refer to table at the next page) m = 8 m (a) What are the reactions at support D? (b) Sketch the shear force and bending moment diagrams. (c) Locate all points of zero shear. (d) Determine the maximum positive and negative (if possible) shear force and bending moment values. (e) Calculate the moment of inertia of the section. (f) Solve for the maximum positive and negative (if possible) flexural and shearing stresses. W mim A g B g FEP2 Pm C D
answer the table. correct answer is 4
You're calculating the volume of a cube with an edge length of 0.250 inches. Which of the following should be used to express the cube's volume? Assume a round-up rule if the digit in the next lower decimel place is "5" or greater. Group of answer choices 1.56E-2 cubic inches 1.6E-2 cubic inches 1.563E-2 cubic inches
14. Determine the pressure increase (in Pascal) required to reduce the volume of water by 1.5%, if the bulk modulus of elasticity is 2.2 x 10^9 Pa. (3 decimal places in scientific notation of 10^9)
Consider the beam shown in (Figure 1). Suppose that a = 150 mm , b = 250 mm , c = 50 mm . Part A Determine the moment of inertia of the beam's cross-sectional area about the centroidal x axe. Express your answer to three significant figures and include the appropriate units. HA ? I = Value Units Submit Request Answer Part B Determine the moment of inertia of the beam's cross-sectional area about the centroidal y axe. Express your answer to three significant figures and include the appropriate units. HA ? Iy = Value Units Submit Request Answer Figure 1 of 1 Provide Feedback a a
When the shear force F=100kN is applied to beams with sections as shown in the figure, calculate the shear stress on the n-n section. However, the unit of dimension in the figure is mm.
Please answer ASAP! Please show the complete solutions. Rate will be given. No long explanation needed. Answer in 3 decimal places. Mechanics of Deformable Bodies A steel circular shaft (G= 80 GPa) of constant diameter of 28 mm is subjected to the following torques in N-m: TA= 160; TB = 130; TC = 350; TD = 380. The directions of the applied torques are indicated in the figure The bearings shown allow the shaft to turn freely. The length of each segment is equal to 86 cm. (a) Plot a torque diagram showing the internal torque in segments (1), (2) and (3) of the shaft. Show the FBD of each segment using a double-headed arrow to represent each torque. Use the same rule of signs as in the lecture. Determine (b) the maximum stress in the shaft in MPa (C) rotation angle of pulley B with respect to pulley D. Solid shaft: J= (pi/32 X D4) Hollow: J= (pi/32xD4-d4) Note: Please Follow rule of signs and show complete FBD of each section
Answer the following questions completely. Minimize rounding of rounding of numbers to obtain a more precise answer. Solution which is supported by a sketch must be labeled completely showing known and unknown quantities
Please see the image below. Thank you =))
Question 1: 1. The figure shows two steel shafts connected by a steel pipe with interference. Modulus of elasticity = 210000MPa, Poisson's ratio = 0.3, and Coefficient of friction = 0.1. Fill the following table: L2 Interference H6/n5 dl 58 mm S2 d2 100 mm LI 70 mm L2 150 mm shaft diameter, d = mm Shaft inner diameter, di = mm Hole outer diameter, do = mm Interference length = mm Coef. Of friction = Modulus of elasticity Poisson's ratio Interference type Мах. Min. Interference micron Мра Pressure = Force = N Torque = Nmm Capacity of the assembly press Allowable transmitted torque Nmm - LP
Which of the following is the fastest speed? E Click the icon to view the conversion table. Choose the correct speed below. O A. 4 miles per hour [mi/h or mph] O B. 7 centimeters per second [cm/s] OC. 710 feet per minute [ft/ min]

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