COMO MEDIR CON EL PIE DE REY O VERNIER GRAN MASTER CLASS EN MILIMETROS Y PULGADAS, 0.02mm Y 0.001"

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You have had problems when reading vernier or vernier instruments with

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expressions of up to 0.02 millimeters or you have had problems reading vernier or vernier

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instruments with expressions of up to one thousandth, so don't suffer any more stay until the end

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of this video and learn how to interpret these two different readings in this same instrument

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so do not excuse any more time but let's start as we can see we have a caliper

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instrument as you already know it as we had already seen also known as vernier, caliper,

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caliper Among other names depending on the location in which you are, we are going to

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remember with its technical aspects and how its fixed rule is its mobile rule which are its

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jaws for external measurements that are like the measurements that we can take with

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large jaws those of internal measurements that are those of the small jaws and those of measuring

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depth that is our stem that comes out in the bottom or back of our stone and

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we start with the simplest the fixed rule in the fixed rule as we can see we have a series of

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divisions and these are marked with 1 2 3 4 5 6 7 8 9 and 10 these divisions are in centimeters and

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Ready we have the subdivisions that mark between number and number these subdivisions are equivalent to

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millimeters which means that between each number there will be ten millimeters each line of the

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fixed rule each line that we can see here between zero and the first line is a millimeter between zero

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and the longest line before the number is equivalent to five millimeters because the fifth line and so

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on, another aspect that we can have is that in the mobile rule or in our gift eo,

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as it is really known, we are going to find the following. To be able to see also that it

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is divided into other ten equal parts but this is no longer centimeters, well each of these

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parts is equivalent to a tenth of a millimeter, that is, the millimeter is divided e in ten and each one of those

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that we have below is equivalent to one of those tenths more, however these are divided into five

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parts then a tenth that is 0.10 divided into five new to equal 0.02 millimeters we are going

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to delve more in detail as we can see If we match the first line there is the line

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of 0 and if we match the first line of our vernier with one of the lines of our

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fixed rule we can see that it will give us that it is equivalent to a tenth of a millimeter to say 0.10 if we match

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the second obviously we will mark 0.20 a 0.2 millimeter but well here the important thing is to

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learn to identify these intermediate lines between the tenths so if we match our

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first line it will give us 0.02 now because we use that if we hunt to say that our lines do coincide,

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well it turns out that when you are taking a measurement with the instrument and it does not

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match exactly with the lines then that is where you start to look at which one

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The line that is matching you, for example at this time our line of 0 with 0 does not match

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if our line of 0 with 0 does not match therefore we have to find the matching line to be able to

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determine the measure then how does the first line match us of our mobile rule or in our

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boyfriend because the measurement is 0.02 let's take for example that we take a measurement like this in simple

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features we can see that we have more than 5 millimeters but less than 6 so that is where we have to

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look at our boyfriend to be able to determine what measurement is being taken well now, one

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thing that we have to be very clear about is that the measurement is taken with the zero of the vernier and not with the

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cut of the steel of the instrument ready now once we have determined how many millimeters

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this measurement we have to get closer to be able to determine exactly how much it is equivalent to, we can

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see that the simulator is going to take us precisely to the point where the line coincides and in this case

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we can see that it does not s coincides with line number 9 therefore it will give us five points 95 points

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90 millimeters well let's take another measurement and we can see that it has 9 millimeters 1 2 3 4 5 6

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7 8 9 millimeters before our boyfriend but we did not reach the 10 then what measurement is we must

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approach to determine what is the measurement that is hunting us at this moment and

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as we can see the line number 5 of our vernier is hunting us therefore the measurement is

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9.5 millimeters 19 point 50 millimeters ready Either way, it is well said,

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let's go over here to take a measure a little more withdrawn, then how can we see here we have already passed

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three centimeters, that is, 30 millimeters, we already spent 5 more, say 35 millimeters, and now it's time to

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look at which one is the one. coincides then we get closer and we can see that the line that coincides

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is the line before the 8 of our vernier, that is, we have seven tenths two point 70 point

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72 74 76 78 this means that we have 35 points 78 millimeters As we can see then

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the 35 comes out of the millimeters of our fixed rule with respect to the 0 of our norm and the point 78

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78 comes out is the number of hundredths because these two hundredths that are marked

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in our name of the line that now matches We will do another exercise that is going to

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put this type of measurement into practice so we have 10 15 16 17 millimeters and we have to get

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closer to find the out that in this case we have point 62 coincides for that

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same reason the measurement is 17 millimeters 62 17 millimeters 62 hundredths in this way we can

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interpret the measurement we are taking with our instrument, so let's first remember

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we measure the millimeters that are located on our fixed rule well after that we go on

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to look for the tenths that are the large integers that are in our autumn and then we go on

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to look for the hundredths that go from 0.02 to 0.02 of iván of two in two hundredths of a millimeter

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of line in line and alone Mind you, we must tell you well, as you can see, it is quite

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simple this reading that we have just done is what normally appears at the bottom of

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our instruments and now we are going to find what appears at the top,

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that is, the inches but in In this case we are going to see them in thousandths of an inch so

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if you do not know how to read this instrument very carefully because this is too easy too

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simple but before that I invite you to subscribe and I like this video if you have n't

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already In fact, remember that industrial mechanics is there to teach you and to help you if you

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have any concerns, do not forget that you can write them in the comments that

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we will gladly answer the inches in this expression of thousandths of an inch,

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that is , with a maximum expression one resolution of 0.00 an inch, that is, an inch divided

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into a thousand parts is too simple, we really have to start because the inch is divided,

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which is the inch. Gada in our fixed ruler the inch in our fixed ruler are

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large numbers like we have 1, 2 and 3, well now as you can see, each inch is

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divided into 10 equal parts so we can see that the first inch would be 1 2 3 4 5

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6 7 8 9 and 10 as it is marked well that the one which this division must be clear that the

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inch is divided into a thousand parts well but in our fixed rule we are going to find it from

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100 to 100, that is, the number 1 of the subdivision of the inch is equivalent to 100 the number 2 to 200 the

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number 3 to 300 and so on until we reach the 1 of the inch that is equivalent to my ready then

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we are going to find every 100 and 100 and 100 there will be four divisions that is, we are going to dividing one hundred

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into four parts would be 25 25 than 25 thousandths of an inch then it would be 25 50 75 100 125 150

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175 200 225 250 275 300 and so on until reaching 1000 that is, this rule is marked

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25 in 25 thousandths of an inch is highlighted every 100 and every inch Now we are going to make a couple of

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readings up to this point from 25 to 25 if we place our instrument at zero of the vernier which is

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the one used to measure it, that is, we are not going to measure with the cut of the steel but we are going to measure it with

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zero. of our Sunday then if we find that 0 matches us, our boyfriend with 5

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of the fixed rule we know that they are 500 thousandths of an inch, well if the value that matches us is

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7 and two more lines we know that 7 equals 700 and each line 25 then 700 plus 50 would be

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750 and that is the measurement that the instrument is throwing at us now we are going to strive to be able to

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read the maximum resolution of our instrument which is not 25 thousandths of an inch but one

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thousandth of an inch. measure and we are going to get closer to be able to see better the

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interpretation of this instrument as we can see at this moment it coincides 0 with 0 remember

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that the instrument must always coincide with 00 and that the measurements when they are exact must coincide

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with the 0 in the event that some measure does not coincide with the 0 which is how it is happening at

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this moment then it will act as follows, it will count how much there is of the 0 of the vernier

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back then of the zero where or backwards we can see that there are three spaces of 25

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thousandths of if we have 75 thousandths of inches up to the third space but since the 0 was between

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the space of the 75 thousandths and the 100 then we are going to determine how much it is equivalent for that we are

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going to go to the non and As you can see, each space is 25 thousandths and the child is divided into 25,

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that is , he does not divide each of those spaces into 25 more spaces and how we know what the measure is,

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because by looking for the line that matches us in this case, we can determine that line number

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19 is the line that best matches then what do we do those 19 we add to the value we have

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previously and what is that value the value is 75 75 plus 19 are 94 and as we can see we have

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a measurement of 94 thousandths of an inch now not s we will move to another point to take another

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measurement value as we can see before it we already have 600 thousandths of an inch because 600

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because we already passed the number 6 in the number greater than the number 6 and we know that those go from 100 to

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100 then they would be 600 thousandths of an inch approaching we can see that it does not coincide with

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625 so the question is how much it is equivalent if we get very close fixedly we can see that it

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coincides with the number 21 of our gift I for a total of 621 thousandths of an inch well now

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another measurement is in this point is how this measurement is read as we already passed the interior and we already passed the

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inch then we are going to have 1,000 1,100 1,200 1,300 and 1,400 if it is not going to say an inch

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and 400 thousandths of an inch it is not agile 1400 or 1.4 inches then yes We begin to detail,

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neither does 0 and 4 coincide, so those 1400 that we already have when we have to add it looking for

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the number that matches we can see that the number 11 is the one that matches perfectly and we have dríamos

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thousand 411 mils as you can see is too simple interpreter this instrument

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must take into account the following rules of the review we will do it first identifies

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whether passed or not inches well if within inches know that every large line each

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number between each inch equals 100 thousandths of an inch and each line that subdivides

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the 100 thousandths of an inch is 25 thousandths of an inch and those 25 thousandths of an inch are

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divided by the vernier which divides that space of 25 thousandths In 25 spaces, how we determine

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what the measurement is, it is determined with the line that matches our boyfriend with the fixed rule

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and this is easy to read this instrument, so I do not take more time, thank you very much for

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