The raw data that is recorded by the uniaxial test frame is generated in the following...
Fantastic news! We've Found the answer you've been seeking!
Question:
Transcribed Image Text:
The raw data that is recorded by the uniaxial test frame is generated in the following format: Data point number, Elongation (mm), Load (kN). Which calculations are required to convert the load to stress and the elongation to strain? Please select each answer that is correct. Dividing the "Load" column by the starting cross-sectional area, approximately 19.63 mm and multiplying by 0.001 to get the stress in MPa. Multiplying the "Load" column by 1000, and then dividing by the initial cross-sectional area, approximately 19.63 mm, to get the stress in MPa. Dividing the "Load" column by the starting cross-sectional area, approximately 78.54 mm, and multiplying by 0.001 to get the stress in MPa. Adding the elongation to the initial gauge length and dividing this by the gauge length to get strain in percent. Subtracting the elongation from the initial gauge ngth and dividing this by the gauge length to get strain as a ratio. Dividing the elongation by the initial gauge length to get strain as a percentage. Dividing the elongation by the initial gauge length to get strain as a ratio. The raw data that is recorded by the uniaxial test frame is generated in the following format: Data point number, Elongation (mm), Load (kN). Which calculations are required to convert the load to stress and the elongation to strain? Please select each answer that is correct. Dividing the "Load" column by the starting cross-sectional area, approximately 19.63 mm and multiplying by 0.001 to get the stress in MPa. Multiplying the "Load" column by 1000, and then dividing by the initial cross-sectional area, approximately 19.63 mm, to get the stress in MPa. Dividing the "Load" column by the starting cross-sectional area, approximately 78.54 mm, and multiplying by 0.001 to get the stress in MPa. Adding the elongation to the initial gauge length and dividing this by the gauge length to get strain in percent. Subtracting the elongation from the initial gauge ngth and dividing this by the gauge length to get strain as a ratio. Dividing the elongation by the initial gauge length to get strain as a percentage. Dividing the elongation by the initial gauge length to get strain as a ratio.
Expert Answer:
Answer rating: 100% (QA)
The correct calculations required to convert the load to stre... View the full answer
Related Book For
Fundamentals of biochemistry Life at the Molecular Level
ISBN: 978-0470547847
4th edition
Authors: Donald Voet, Judith G. Voet, Charlotte W. Pratt
Posted Date:
Students also viewed these mechanical engineering questions
-
Let A, B be sets. Define: (a) the Cartesian product (A B) (b) the set of relations R between A and B (c) the identity relation A on the set A [3 marks] Suppose S, T are relations between A and B, and...
-
The adjusted trial balance for Sweet Home Catering, Inc., is presented below. Prepare the income statement and statement of retained earnings for Sweet Home Catering, Inc., for the month ended March...
-
Which of the following is not an argument against free trade? A) Trade keeps consumer prices too low. B) Small industries need protection to achieve comparative advantage in a global environment. C)...
-
An electrical firm manufactures light bulbs that have a length of life that is approximately normally distributed with a standard deviation of 40 hours. If a sample of 30 bulbs has an average life of...
-
In a large laboratory electromagnet, the poles have a circular cross section with a diameter of \(100 \mathrm{~mm}\) and are \(25 \mathrm{~mm}\) apart. If there is a uniform 1. 3-T magnetic field...
-
Sylvan Inc. entered into a non-cancelable lease arrangement with Breton Leasing Corporation for a certain machine. Bretons primary business is leasing; it is not a manufacturer or dealer. Sylvan will...
-
19.A radioactive -emission. A detector records n -particles in 2s and by next 2s (accumulatively) it records 1.1 n -particle. Number of -particles recorded by detector after a long time, is (1) 11n...
-
Martin Moreno is 42 years old, single, and works as a designer for a major architectural firm. He is well paid and over time has built up a sizable portfolio of investments. He considers himself an...
-
Design NFA, over string {0,1} for accepting the string that has the number of 0's as even length and the number of 1's as odd length. Prove the same by parsing the following using extended string...
-
On its chromosome, an E. coli cell has the genotype lacI lacZ+ lacY+ lacA+. It has an F factor with the genotype lacI+ lacZ+ lacY+ lacA+. What is the expected level of expression of the lac operon...
-
The basal transcription apparatus is composed of a. five general transcription factors. b. RNA polymerase II. c. a DNA sequence containing a TATA box and transcriptional start site. d. all of the...
-
Which of the following base sequences is used during transcription? a. Promoter and terminator b. Start and stop codons c. Ribosome-binding site d. Both a and b
-
A paracentric inversion a. includes the centromere within the inverted region. b. does not include the centromere within the inverted region. c. has two adjacent inverted regions. d. is an inverted...
-
In the triplet-binding assay carried out by Nirenberg and Leder, an RNA triplet composed of three bases was able to cause the a. translation of a polypeptide. b. binding of a tRNA carrying the...
-
Let X and Y be independent random variables with joint probability density function fXY(x, y) = 4x(1-y), x and y are from 0 to 1, and 0 otherwise. The probability of 1/4 < X
-
A test car is driven a fixed distance of n miles along a straight highway. (Here n Z+.) The car travels at one mile per hour for the first mile, two miles per hour for the second mile, four miles...
-
Explain why long-distance runners prefer to train at high altitude even when the race is to be held at sea level. Why must the runners spend more than a day or two at the higher elevation?
-
A reaction mixture contains DNA polymerase, the four dNTPs, and one of the DNA molecules whose structure is represented below. Which reaction mixtures generate PPi? 3 5% (p
-
Calculate the energy of one mole of photons of red light ( = 700 nm).
-
For an object in curvilinear motion, (a) the objects velocity components are constant, (b) the y-velocity component is necessarily greater than the x-velocity component, (c) there is an acceleration...
-
A football is thrown on a long pass. Compared to the balls initial horizontal velocity component, the velocity at the highest point is (a) greater, (b) less, (c) the same.
-
On Cartesian axes, the x-component of a vector is generally associated with a (a) cosine, (b) sine, (c) tangent, (d) none of the foregoing.
Study smarter with the SolutionInn App