A single tick mark after a number, such as 38', typically indicates feet in measurements. In this case, 38' means 38 feet, which is a common notation in construction, architecture, and sports fields. The apostrophe symbol (') is used to denote feet, while a double tick mark, such as 38", would represent inches.
If you mean parasitism, yes, there are plenty of that around. Example of this is the symbiotic relationship between a tick and its host. While the tick benefits by the blood it receives, the host mammal loses blood, and is often becoming infected by the contaminated tick.
It is unlikely to contract Lyme disease from drinking water with a tick in it, as the bacteria that causes Lyme disease is primarily transmitted through the bite of an infected tick. Ingesting a tick is not a common route of transmission for this disease. However, it is always best to carefully inspect drinking water and avoid consuming it if there is a tick present.
Yes. Lyme disease is a multi-system bacterial infection caused by the spirochete, Borrelia burgdorferi. The spirochete is transmitted from one animal to another through the bite of the infective tick.
It is by claws which attach to passersby that beggar's tick seeds spread. The bee- and butterfly-friendly wildflower produces many seeds which may spread one of two moving forces, of which one is the above-mentioned animal or human intervention. Weather spreads the seeds, which cooperate with the slightest of breezes and strongest of winds.
You defidently don't want to eat ticks. Ticks make you sick by putting blood of a sick animal in your blood stream. If you eat one, you are at a risk of getting sick from the bloog stored in their bodies.
One way of doing it would be do put smaller tick marks in between the larger tick marks for whole numbers. So if you want to represent, 1, then 1.25, 1.50, 1.75 then 2 on a number line, you could put a large tick mark with the number '1' above it, then 3 evenly space smaller tick marks, then another large tick mark with the number '2' above it. If you have enough room, you could write the decimal numbers above the smaller tick marks, too.
To divide a segment into eight intervals, you need seven tick marks. Each tick mark represents a division between the intervals, so for eight intervals, you require one fewer tick mark than the number of intervals. Therefore, you would place seven tick marks along the segment.
buy one and get a tick 3
You have to tick the box at the top and when they are all ticked right click on one email and say mark as read and it will do the same to all of them.
To indicate congruent segments in a diagram, you typically use tick marks. Each pair of congruent segments is marked with the same number of tick marks; for example, if two segments are congruent, they might each have one tick mark, while another pair that is also congruent might have two tick marks. This visual representation helps to easily identify which segments are equal in length.
To indicate that segments are congruent, specific marks such as tick marks or hash marks are used. Typically, segments that are congruent will have the same number of tick marks; for example, if two segments each have one tick mark, they are congruent. These visual indicators help to easily identify equal lengths in geometric diagrams.
"Checkmark" is typically written as one word, especially in American English. In British English, it is often referred to as "tick" or "tick mark." However, "check mark" as two words is also acceptable in some contexts. Overall, the one-word form "checkmark" is widely recognized and used.
One is advance mark, one is retard mark, one is dead on mark.
On a measuring tape, the 1 and 3/8-inch mark is located between the 1-inch and 2-inch marks. To find it, look for the 1-inch mark and then count three ticks or lines to the right, which represent the eighths of an inch. Each tick between whole numbers typically represents one-eighth of an inch, so the 1 and 3/8 mark will be the fourth tick after the 1-inch mark.
Instructions on useThe Vernier caliper is an extremely precise measuring instrument; the reading error is 1/20 mm = 0.05 mm.Close the jaws lightly on the object to be measured.If you are measuring something with a round cross section, make sure that the axis of the object is perpendicular to the caliper. This is necessary to ensure that you are measuring the full diameter and not merely a chord.Ignore the top scale, which is calibrated in inches.Use the bottom scale, which is in metric units.Notice that there is a fixed scale and a sliding scale.The boldface numbers on the fixed scale are centimeters.The tick marks on the fixed scale between the boldface numbers are millimeters.There are ten tick marks on the sliding scale. The left-most tick mark on the sliding scale will let you read from the fixed scale the number of whole millimeters that the jaws are opened.In the example above, the leftmost tick mark on the sliding scale is between 21 mm and 22 mm, so the number of whole millimeters is 21.Next we find the tenths of millimeters. Notice that the ten tick marks on the sliding scale are the same width as nine ticks marks on the fixed scale. This means that at most one of the tick marks on the sliding scale will align with a tick mark on the fixed scale; the others will miss.The number of the aligned tick mark on the sliding scale tells you the number of tenths of millimeters. In the example above, the 3rd tick mark on the sliding scale is in coincidence with the one above it, so the caliper reading is (21.30 ± 0.05) mm.If two adjacent tick marks on the sliding scale look equally aligned with their counterparts on the fixed scale, then the reading is half way between the two marks. In the example above, if the 3rd and 4th tick marks on the sliding scale looked to be equally aligned, then the reading would be (21.35 ± 0.05) mm.On those rare occasions when the reading just happens to be a "nice" number like 2 cm, don't forget to include the zero decimal places showing the precision of the measurement and the reading error. So not 2 cm, but rather (2.000 ± 0.005) cm or (20.00 ± 0.05) mm.thank you from assven q
Instructions on useThe Vernier caliper is an extremely precise measuring instrument; the reading error is 1/20 mm = 0.05 mm.Close the jaws lightly on the object to be measured.If you are measuring something with a round cross section, make sure that the axis of the object is perpendicular to the caliper. This is necessary to ensure that you are measuring the full diameter and not merely a chord.Ignore the top scale, which is calibrated in inches.Use the bottom scale, which is in metric units.Notice that there is a fixed scale and a sliding scale.The boldface numbers on the fixed scale are centimeters.The tick marks on the fixed scale between the boldface numbers are millimeters.There are ten tick marks on the sliding scale. The left-most tick mark on the sliding scale will let you read from the fixed scale the number of whole millimeters that the jaws are opened.In the example above, the leftmost tick mark on the sliding scale is between 21 mm and 22 mm, so the number of whole millimeters is 21.Next we find the tenths of millimeters. Notice that the ten tick marks on the sliding scale are the same width as nine ticks marks on the fixed scale. This means that at most one of the tick marks on the sliding scale will align with a tick mark on the fixed scale; the others will miss.The number of the aligned tick mark on the sliding scale tells you the number of tenths of millimeters. In the example above, the 3rd tick mark on the sliding scale is in coincidence with the one above it, so the caliper reading is (21.30 ± 0.05) mm.If two adjacent tick marks on the sliding scale look equally aligned with their counterparts on the fixed scale, then the reading is half way between the two marks. In the example above, if the 3rd and 4th tick marks on the sliding scale looked to be equally aligned, then the reading would be (21.35 ± 0.05) mm.On those rare occasions when the reading just happens to be a "nice" number like 2 cm, don't forget to include the zero decimal places showing the precision of the measurement and the reading error. So not 2 cm, but rather (2.000 ± 0.005) cm or (20.00 ± 0.05) mm.thank you from assven q
Instructions on useThe Vernier caliper is an extremely precise measuring instrument; the reading error is 1/20 mm = 0.05 mm.Close the jaws lightly on the object to be measured.If you are measuring something with a round cross section, make sure that the axis of the object is perpendicular to the caliper. This is necessary to ensure that you are measuring the full diameter and not merely a chord.Ignore the top scale, which is calibrated in inches.Use the bottom scale, which is in metric units.Notice that there is a fixed scale and a sliding scale.The boldface numbers on the fixed scale are centimeters.The tick marks on the fixed scale between the boldface numbers are millimeters.There are ten tick marks on the sliding scale. The left-most tick mark on the sliding scale will let you read from the fixed scale the number of whole millimeters that the jaws are opened.In the example above, the leftmost tick mark on the sliding scale is between 21 mm and 22 mm, so the number of whole millimeters is 21.Next we find the tenths of millimeters. Notice that the ten tick marks on the sliding scale are the same width as nine ticks marks on the fixed scale. This means that at most one of the tick marks on the sliding scale will align with a tick mark on the fixed scale; the others will miss.The number of the aligned tick mark on the sliding scale tells you the number of tenths of millimeters. In the example above, the 3rd tick mark on the sliding scale is in coincidence with the one above it, so the caliper reading is (21.30 ± 0.05) mm.If two adjacent tick marks on the sliding scale look equally aligned with their counterparts on the fixed scale, then the reading is half way between the two marks. In the example above, if the 3rd and 4th tick marks on the sliding scale looked to be equally aligned, then the reading would be (21.35 ± 0.05) mm.On those rare occasions when the reading just happens to be a "nice" number like 2 cm, don't forget to include the zero decimal places showing the precision of the measurement and the reading error. So not 2 cm, but rather (2.000 ± 0.005) cm or (20.00 ± 0.05) mm.thank you from assven q