draft. Korea was unified as a single country before splitting. A fact about Korea is they consider the number 4 as unlucky. The Korean peninsula is made up of north and south Korea. Korea was found in 2333 BC. Korea split in 1945 right after World War 2. Korea came to be two countries due to its history, conflict and political views with each other. These are the reasons why the countries split. Korea was split into two separate countries because of conflicts with each other. The two Koreas have negative
Japan and Korea were able to advance their way of life due to the broad acceptance of the Chinese culture. The cultural exchange resulted from immigration and trade within the region of East Asia. Japan and Korea were very assertive in maintaining the relationship among countries within the continent which assisted in maintaining strong and consistent trading. Trade originated in East Asia as early as the first century. Trade in China began in the regions of Han; the downfall of the Han dynasty resulted
concept of traditional strategic planning and explores the prevalence of such culture in North Korea after taking into account the historic background of the country. In order to appreciate and analyse the true extent of the merits of this article and the nuances of such culture, one has to explore in more detail the concept of strategic planning and the historic effect of such planning on North Korea and its policies. Strategic Culture: the concept The concept of strategic culture is not a
than unit fractions, in the second lesson students focus on applying their knowledge to represent those fractions with number bonds. Our students have used number bonds extensively over the past semester as a way to demonstrate multiplication and division facts. Number bonds will connect
In Chapter 6 and 7, students learn how to preform operations with rational exponents and with inverse, exponential, and logarithmic functions. Rational, or fractional, exponents are powers where a base of a is manipulated by nth roots. For example, when n is equal to 2 or 3, an equation is referred to as a square root or a cube root respectively. In a square root, the radical’s answer must evaluate to a when multiplied by itself. Similarly, in the root of a cube an answer multiplied by itself twice
What I want students to take away from my learning segment is being able to correctly identify names of equal parts, know the differences between a fraction, unit fraction, numerator, and denominator, so students can be successful to write a fraction that represents a part of a whole or to describe a part of a set which will have students develop a deep understanding of fractions. Day 1: To measure what students will learn in lesson 1, students will be given a worksheet, which includes 4 problems
What are three big ideas you have learned about fractions from the standards and your coursework experiences? 1. The first big idea about fractions that I learned from coursework experiences is about how students have different ways of understanding fractions, and how to recognize and support that these understandings converge towards the same conceptual understanding. This was made especially cognizant to me in class when we looked at different sets of student work and evaluated them for understanding
Abbey Jacobson Math 212 Reflection 2 Reflect 4.4 ⅖ths is larger than 2/7ths because when changing the fraction to a common denominator, in this case 35, we get 14/35ths and 10/35ths respectively. 4/10ths is larger than 3/8ths, I found this by finding the common denominator of 80 and changing the fractions accordingly to get 32/80 and 30/80 respectively. When comparing 6/11 and ⅗ we find the ⅗ is larger when we find the common denominator. The common denominator is 55, we get 30/55 and 33/55 respectively
The NCTM (2002) says that there are two phases of development when learning fractions: finding the meaning of fractions in regards to the link between division and divided quantities and discovering the strange properties of fractions (p. 7). Since developing a number sense of fractions is so important, teachers need to pick their students brains to decipher their thinking. According to the NCTM (2007)
4.NF.A.1 Explain why a fraction a/b is equivalent to a fraction (n × a)/(n × b) by using visual fraction models, with attention to how the number and size of the parts differ even though the two fractions themselves are the same size. Use this principle to recognize and generate equivalent fractions. 21.3–5.ES.2 Essential Concept and/or Skill: Adjust to various roles and responsibilities and understand the need to be flexible to change. Students will: • Recognize like fractions by simplifying, graph
Step 1: Warm up your brains! o Display division problems on ELMO. Introduce one at a time. o 19 ÷ 3 (6 R1) o Mental math: 20 ÷ 2 (10) Step 2: Solve • Have students solve the division problem using long division for the 1st problem and mental math for the second problem on their chalkboards. Remind students to show all their work for the first problem. • Walk around and check for understanding, ask guiding questions to help students who might need further assistance. • When students have solved the
Extend understanding of fraction equivalence and ordering. 4.NF.1 Explain why a fraction a/b is equivalent to a fraction (n x a) / (n x b) by using visual fraction models, with attention to how the number and size of the parts differ even though the two fractions themselves are the same size. Use this principle to recognize and generate equivalent fractions. Measureable Objective/Sub-objective(s) to be addressed – How will it be communicated age appropriately? Document the SMART goal (Specific
concepts for students to learn during elementary school. The idea of having many parts of a number or a whole can feel abstract. This concepts becomes more challenging as students must apply fractions to addition, subtraction, multiplication, and division. Order to do that, students must have a strong conception of what is a fraction and it’s value. Although fractions are often introduced in upper elementary grades through worksheets, it does not hold the same value as using other more visual methods
The third main idea is mixed numbers and adding and subtracting like and unlike denominators. When adding mixed numbered fractions with the same denominator you add the whole numbers like normal and add the fractions like normal remembering to keep the denominator. For example, 2 ⅔ + 1 ⅓ = 2 + 1 = 3 and then 2 +1 for the numerators keeping the denominator a 3 gives you 3 3/3 or 4. In the denominators are not the same you leave the whole number alone and adjust the fractions like you did before. For
Fractions are often seen by teachers as difficult to teach in the classroom and in turn difficult for children to understand how and why we use them. Although this is the case, it should be noted that fractions underpin a child’s ability to develop proportional reasoning and helps promote further progress in future mathematical studies (Clarke, Roche & Mitchell, 2008). This highlights the need for a child to be proficient in fractions and for their teacher to also be able to progress a child’s learning
It also proves that an activity can be fun while integrating multiple skills and several levels concept knowledge. This activity not only helps students with their fraction multiplication and division skills but also reiterates vocabulary (numerator, denominator, etc.) and gets at the basics of understanding what fractions actually mean. By making the game into something of an activity where students are trying to get the largest (or smallest)
Allied Forces. Some of these units still survive today and others are forever remembered in the prestigious history of the King of Battle. Some of these units include the 977th FA, BN; the 3rd BN, 13th FA; the 2nd BN, 18th FA; and the 9th Armored Division. There were a lot of key factors that came into play during World War 2 for the 977th Field Artillery Battalion “BN”. I will provide you with a little history or background on this unit so that you have a better understanding of the things they
Apportionment Research Paper Over the course of the semester, I learned about numerous topics in this math class. All the areas studied showed to be useful in everyday life. From studying sets to studying fractals, I am able to see where these concepts can be applied. One particular lesson that I enjoyed was learning about voting systems, specifically the apportionment method. After seeing that two plans between Alexander Hamilton and Thomas Jefferson, I was drawn to the Hamilton plan. Through further
Single-parenthood can be defined as when one out of two people who is responsible for the nurturing and child rearing is not available, and the work meant for two people, is now been Carried out by only one person. Collins online Dictionary, define single-parenting as a mother or father who looks after children on their own, without the other partner. Single-parenting can be defined as a situation in which one of the two individuals involved in the conception of the child is being responsible for
Vern, Sucks you guys aren't getting to do anything. I am all for getting guys SLJM qualified, with promotions slowing down, anytime we can get the guys to PDE schools I am all for it. To give you my back ground, I got to 2nd BN in 06. Was in the S-6 for OIF IV and then joined 5224 for 3 years or so. I spent two years working and helping set up the RSE when it first started, but never deployed. I came back to 2nd BN in 2013 joining up with 5214. Been there up until now. I have been a 3 since