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Please give me the answers for this i been looking at this for a hour and my head hurts

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Learning Goal: To use fundamental geometric and statics methods to determine the state of plane stress at the point on an element of material that is rotated clockwise through an angle from the in- plane stress representation of the point. The state of in-plane stress at a point on an element of material is shown. Let o, the same point that is rotated through an angle of 0-35 45.0 ksi, o, 19.0 ksi, and Ty 12.0 kai. Use this information to represent the state of stress of

Handwritten solution required. Strictly don't use chatgpt. If you use chatgpt ,I will report the answer for sure. Mechanical engineering dynamics.

For the air compressor shown in Figure below, the air enters from a large area and exit from small one, explain why? Instructions for answering this question: The answer to this questian is required as handwritten where you are aiso required to add a Handwritten integrity Statement. Pieose follow the below steps: 1 Write on a blank poper your AUM student ID, full name, course code, section and date 2 Write the following integrity statement and sign: "7 offirm that I have neither given nor received any help on this assessment and that personally compieted it on my own." 3. Write your onswer to the obove question as required 4. Put your Original Civil ID card or AUM ID card on the poper 5 Toke o picture or scan, and uplood Important note: if handwritten document is submitted without the integrity stotement including ID (Civil ID or AUM ID), then the related handwritten question(s) will not be groded.

Can someone please help me to answer all of the following questions thank you!!

Newton's Law of cooling states that the rate at which heat is lost by a heated body is proportional to the difference in temperature between the body and the surrounding medium. Match the following statements/phrases with the corresponding item in the drop down box. Choices in the box 1. In accordance with the stated law obove, we have the equation? 2. If a thermometer is taken outdoors where the temperoture is 5 deg C, from a room in which the temperature is 20 deg C and the reading drops 10 deg C in one minute, the working equation is? 3. In the obove problem, separoting the variables and integrating will result to? 4. In the obove problem, how long, in minutes, after its removal from the room will the reading be 6 deg C? 5. In the obove problem, ofter 30 seconds, whot will be the thermometer reading? 5.2 dT(body temp)/dt = k(Temp of medium - 5) dr(body temp)/dt = k(Temp of body - Temp of medium) Temp of body = Cenkt +5 2.5 13.7 dr(body temp)/dt = k(Temp of medium - Temp of body)…

You are a biomedical engineer working for a small orthopaedic firm that fabricates rectangular shaped fracture fixation plates from titanium alloy (model = "Ti Fix-It") materials. A recent clinical report documents some problems with the plates implanted into fractured limbs. Specifically, some plates have become permanently bent while patients are in rehab and doing partial weight bearing activities. Your boss asks you to review the technical report that was generated by the previous test engineer (whose job you now have!) and used to verify the design. The brief report states the following... "Ti Fix-It plates were manufactured from Ti-6Al-4V (grade 5) and machined into solid 150 mm long beams with a 4 mm thick and 15 mm wide cross section. Each Ti Fix-It plate was loaded in equilibrium in a 4-point bending test (set-up configuration is provided in drawing below), with an applied load of 1000N. The maximum stress in this set-up was less than the yield stress for the Ti-6Al-4V…

Task 3-a: If you have four instruments used to measure a temperature of 50.02 C inside the factory. However, the instruments gave different readings for different trials as follows: Instrument 1 20 30 40 50 60 70 80 51 49 Instrument 2 49 49 49 49 49 49 49 49 49 Instrument 3 48.01 48.03 49.02 49.01 50.00 48.02 47.09 47.05 47.80 Instrument 4 17.01 17.02 17.09 17.03 17.01 17.03 15.09 19.02 17.00 1. Define the resolution of an instrument. 2. Define the sensitivity of an instrument, then explain how the sensitivity of an instrument can be calculated. 3. Define the accuracy of an instrument system and explain using your own words how the accuracies of different instruments are compared. 4. Define the precision of an instrument system and explain using your own words how the precisions for different instruments are compared.

Hello please show your correct and complete solution with schematic diagram and assumptions. Thanks ASAP! Subject: Mechanical Engineering

please show work answer is D

Please give a complete solution in Handwritten format. Strictly don't use chatgpt,I need correct answer. Engineering dynamics

I need this quickly please please please its in mechanical engineering: dynamic please please please i need this

Task 5  Produce specific Steady Flow Energy Equation based on the given and stated assumptions in the above problem.

Per Bartleby honor code only 3 subparts of a question can be answered per submission. I have submitted 10, 11, 12, and 13 previously. Please answer 14, 15, 16

i need correct explanation my best wishes ton

2 and3

Please answer the 4th question

Task 1 You are a student at the HTU University, the instructor of the fundamental of thermodynamic course asked you to explain the fundamentals of thermodynamic systems to Grade 10 school students to help them visualize the importance of thermodynamics in their life starting from their car engine and moving to the different appliance that they use in their home, discuss the following with school students: Q1. What does thermodynamics mean and represent? Give examples from your daily life. Q2. What is a thermodynamic property? What is the difference between intensive and extensive properties. Why the density is an intensive property; it is dependent on mass and volume which are extensive properties, right?. Q3. What is the difference between energy and heat transfer? Give examples on both. Q4. What does the first law of thermodynamics state? Give two examples on the first law of thermodynamics from your daily life. Q5. Write down the equation of energy balance for closed, open, and…

A. A customer asked you to explain your choice of a temperature sensor that you used for his PCB. Initially, there were two sensor options. To compare between them, you decided to test their accuracy and precision. Accuracy of a sensor is a measure of how near its reading is to the real value, the nearer the measured value to the real value the better. While precision is a measure of how widely spread the readings of a sensor are [relative to each other] when measuring the same variable, the narrower the spread the better. So, you tested the two sensors by measuring the same temperature, which was 100 C of boiling water, and you recorder the following 10 measurements of each sensor. Which Sensor has higher accuracy, and which one has higher precision. Sensor Sensor readings when measuring 100 C 99.65 100.05 103 102 99.3 s1 100.1 99.1 100.5 99 98.8 98.78 96.9 101.4 98.88 99 S2 99.12 98.9 99 98.69 99.2

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Please answer it correctly. Show solution step by step with Units. Thermodynamics... Topic: Work and Heat

Could you please explain where and what is tight side and also how to find 5-9

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Kindly solve what is ask. Show complete and clean solution please so that I can clearly understand. Thank you!

Industrial engineering question please solve fast

Problem 1: You are working in a consulting company that does a lot of hand calculations for designs in Aerospace Industry for mechanical, thermal, and fluidic systems. You took the Virtual engineering course, and you want to convince your boss and the team you work to move to modelling and simulation in computers using a certain software (Ansys, Abaqus, etc). Discuss the benefits and pitfalls of computer based models used within an industrial environment to solve problems in engineering.

I could not figure this problem during lecture please help me solve it! ANSWER ALL OR DO NOT ATTEMPT

The following exercises have been designed to engage you with the material presented in this module. They will further develop your understanding of key concepts, and completing them is a vital part of the learning process. 1. A centrifugal pump has the following characteristics: Q (m’h) 23 46 69 92 115 h (m) 17 16 13.5 10.5 6.6 2 n (%) 49.5 61 63.5 53 10 The pump is used to pump water from a low reservoir to a high reservoir through a total length of 800 m of pipe 15 cm diameter. The difference between the water levels in the reservoirs is 8 m. Neglecting all losses except friction and assuming f= 0.004, find the rate of flow between the reservoirs. Also determine the power input to the pump.

A certain system contains three branches in parallel. One branch contains units A and B in series. A second branch contains units C and D in series. The third branch contains unit E alone. These non-identical units have constant hazard rates in order of their unit number of 0.1/year, 0.15/year, 0.2/year, 0.15/year, and 0.25/year. a) Draw a block diagram and compute the reliability of the system from the reliabilities of the individual units. b) Draw a signal flow graph. c) Identify the cut sets and the minimal cut sets. d) Find reliability of the system. e) Find the mean time to failure