A manga adaptation of the film, illustrated by manga artist Yukiko Seike, was serialized in Kodansha's seinen manga magazine Afternoon from 25 May 2010 to 25 March 2011.[52][53] Its chapters were collected in two tankbon volumes by Kodansha, released on 22 November 2010 and 22 April 2011.[54][55] It has been published in English as a single volume omnibus by Vertical Inc.[56] The English translation was done by Melissa and Taka Tanaka.[57] In the manga adaptation, the second two sections of the story are expanded upon. Akari, Kanae, and Risa (Takaki's girlfriend from Episode 3) all receive much more focus.
Two kids are walking together as the cherry blossom petals fall. After the girl reveals that the falling speed of a cherry blossom petal is 5 centimeters per second, she runs toward a train crossing and quickly crosses it. On the other side of the lowered crossing, she makes a promise to the boy that they will see the cherry blossoms together next year.
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The centimeter per second, or centimetre per second, is an SI unit of speed in the metric system. Centimeters per second can be abbreviated as cm/s, and are also sometimes abbreviated as cm/sec. For example, 1 centimeter per second can be written as 1 cm/s or 1 cm/sec.
To convert centimeters per second to another unit of speed, you need to multiply the value by a conversion factor.A conversion factor is a numerical value used to change the units of a measurement without changing the value.[2]
The movie's focus is about two people named Takaki Tohno (Kenji Mizuhashi) and Akari Shinohara (Ayaka Onoue), following them as they mature. It is divided into three episodes that together make up the movie. The first part, "Cherry Blossoms", follows Takaki's reflections on his relationship with Akari while they were children. The second act, "Cosmonaut", leaves Akari to depict Takaki as a teenager and is told from Kanae Sumida's (Satomi Hanamura) perspective. The final part, which is also called "5 Centimeters Per Second", shows them as young adults, mainly through a montage set to the famous Japanese pop song "One More Time, One More Chance".
If a rectangle has an area of 4 square centimeters, and you have a second rectangle that is 3 times as long and 3 times as wide, the area of the second rectangle will be larger. The area of a rectangle is calculated by multiplying the length by the width.
Online calculator to convert centimeters per second to meters per second (cm/s to m/s) with formulas, examples, and tables. Our conversions provide a quick and easy way to convert between Speed or Velocity units.
Centimeters per second is a unit of Speed or Velocity in the Metric System. It measures the number of centimeters traveled in a second. The symbol for centimeters per second is cm/s and the International spelling for this unit is centimetres per second. There are 100 cm/s in m/s.
Meters per second is a unit of Speed or Velocity in the Metric System. It measures the number of meters traveled in a second. The symbol for meters per second is m/s and the International spelling for this unit is metres per second. There are 0.01 m/s in cm/s.
How many meters per (second squared) in 1 centimeters per (second squared)?The answer is 0.01.We assume you are converting between metre/square second and centimetre/square second.You can view more details on each measurement unit:meters per (second squared) orcentimeters per (second squared)The SI derived unit for acceleration is the meter/square second.1 meter/square second is equal to 100 centimeters per (second squared).Note that rounding errors may occur, so always check the results.Use this page to learn how to convert between meters/square second and centimeters/square second.Type in your own numbers in the form to convert the units!
ConvertUnits.com provides an online conversion calculator for all types of measurement units. You can find metric conversion tables for SI units, as well as English units, currency, and other data. Type in unit symbols, abbreviations, or full names for units of length, area, mass, pressure, and other types. Examples include mm, inch, 70 kg, 150 lbs, US fluid ounce, 6'3", 10 stone 4, cubic cm, metres squared, grams, moles, feet per second, and many more!
Speed is the rate of change in position of an object, regardless of direction of travel. Walk forward or backward at 2 meters per second, and your speed is just that: 2 m/s. Velocity is speed in the context of direction. Say you were walking backward again; your velocity is negative 2 m/s, although your speed is still positive.
For most science applications, the SI unit for speed and velocity is meters per second (m/s), although kliometers per hour (km/h) is sometimes used when measuring the speed of vehicles. The English system usually expresses speed as miles per hour (mph) or sometimes feet per second (ft/s), while marine vessels typically use knots, or nautical miles per hour.
To convert among any units in the left column, say from A to B, you can multiply by the factor for A to convert A into meters per second then divide by the factor for B to convert out of meters per second. Or, you can find the single factor you need by dividing the A factor by the B factor.
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KEYTRUDA is indicated for the treatment of patients with locally advanced or metastatic esophageal or gastroesophageal junction (GEJ) (tumors with epicenter 1 to 5 centimeters above the GEJ) carcinoma that is not amenable to surgical resection or definitive chemoradiation either:
A box 2 centimeters high, 3 centimeters wide, and 5 centimeters long can hold 40 grams of clay. A second box has twice the height, three times the width, and the same length as the first box. How many grams of clay can it hold?
The second box has 3 times the width and the same length as the first, smaller box. So we can fit three of the smaller boxes inside the second box to make one layer which will be 2 cm high. The second box is 2 times as high as the smaller one so we can add one more layer of three smaller boxes to fill the second box.
The first box is 2 centimeters high, 3 centimeters wide, and 5 centimeters long so it has volume$$2 \text{cm} \times 3 \text{cm} \times 5 \text{cm} = 30 \text{ cubic centimeters}$$and it holds 40 grams of clay. The second box is 4 centimeters high, 9 centimeters wide, and 5 centimeters long so its volume is$$4 \text{cm} \times 9 \text{cm} \times 5 \text{cm} = 180 \text{ cubic centimeters}.$$Since the volume of the second box is $180 \div 30 = 6$ times bigger, it can hold 6 timesas much clay. So the second box can hold $6 \times 40 = 240 $ grams of clay.
The rover's rocker-bogie suspension enables the rover to drive over obstacles (such as rocks) or through depressions that are as large as the rover's wheel 20.7 inches (52.5 centimeters). Each wheel has an aggressive tread composed of 48 grousers (or cleats), machined into its surface. The grousers give the rover excellent traction when driving in both soft sand and on hard rocks.
By Earth vehicle standards, the Perseverance rover is slow. By Martian vehicle standards, however, Perseverance is a standout performer. The rover has a top speed on flat, hard ground of a little less than 0.1 mph (4.2 centimeters per second, or 152 meters per hour). For comparison, a 3 mph walking pace is 134 centimeters per second, or 4,828 meters per hour.
Labor is a process that subdivides into three stages. The first stage starts when labor begins and ends with full cervical dilation and effacement. The second stage commences with complete cervical dilation and ends with the delivery of the fetus. The third stage initiates after the fetus is delivered and ends when the placenta is delivered. This activity outlines the stages of labor and its relevance to the interprofessional team in managing women in labor.
The first stage of labor begins when labor starts and ends with full cervical dilation to 10 centimeters.[1] Labor often begins spontaneously or may be induced medically for a variety of maternal or fetal indications.[5] Methods of inducing labor include cervical ripening with prostaglandins, membrane stripping, amniotomy, and intravenous oxytocin.[5] Although precisely determining when labor starts may be inexact, labor is generally defined as beginning when contractions become strong and regularly spaced at approximately 3 to 5 minutes apart.[1] Women may experience painful contractions throughout pregnancy that do not lead to cervical dilation or effacement, referred to as false labor. Thus, defining the onset of labor often relies on retrospective or subjective data. Friedman et al. were some of the first to study labor progress and defined the beginning of labor as starting when women felt significant and regular contractions.[6] He graphed cervical dilation over time and determined that normal labor has a sigmoidal shape. Based on the analysis from his labor graphs, he proposed that labor has three divisions. First, a preparatory stage marked by slow cervical dilation, with large biochemical and structural changes. This is also known as the latent phase of the first stage of labor. Second, a much shorter and rapid dilational phase is also known as the active phase of the first stage of labor. Third, a pelvic division phase, which takes place during the second stage of labor.[1]
The first stage of labor is further subdivides into two phases, defined by the degree of cervical dilation. The latent phase is commonly defined as the 0 to 6 cm, while the active phase commences from 6 cm to full cervical dilation. The presenting fetal part also begins the process of engagement into the pelvis during the first stage. Throughout the first stage of labor, serial cervical exams are done to determine the position of the fetus, cervical dilation, and cervical effacement. Cervical effacement refers to the cervical length in the anterior-posterior plane. When the cervix is completely thinned out, and no length is left, this is referred to as 100 percent effacement.[1] The station of the fetus is defined relative to its position in the maternal pelvis. When the bony fetal presenting part is aligned with the maternal ischial spine, the fetus is 0 station. Proximal to the ischial spines are stations -1 centimeter to -5 centimeters, and distal to the ischial spines is +1 to +5 station.[1] The first stage of labor contains a latent phase and an active phase. During the latent phase, the cervix dilates slowly to approximately 6 centimeters. The latent phase is generally considerably longer and less predictable with regard to the rate of cervical change than is observed in the active phase. A normal latent phase can last up to 20 hours and 14 hours in nulliparous and multiparous women, respectively, without being considered prolonged.[1] Sedation can increase the duration of the latent phase of labor.[7] The cervix changes more rapidly and predictably in the active phase until it reaches 10 centimeters and cervical dilation and effacement are complete. Active labor with more rapid cervical dilation generally starts around 6 centimeters of dilation. During the active phase, the cervix typically dilates at a rate of 1.2 to 1.5 centimeters per hour. Multiparas, or women with a history of prior vaginal delivery, tend to demonstrate more rapid cervical dilation.[1] The absence of cervical change for greater than 4 hours in the presence of adequate contractions or six hours with inadequate contractions is considered the arrest of labor and may warrant clinical intervention.[7] be457b7860
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