BASIC PATTERN ENGLISH SENTENCES

BASIC PATTERN ENGLISH SENTENCES Untuk memahami artinya 1. 2. 3. 4.

S – KK – O – Ket S – to be –PP – Ket There – to be – S – Ket IT + something a. It – to be – PP – S – Ket b. It – KKp – PP – S – Ket c. It – KK – O – S – Ket

1. S – KK – O – Ket    

Some students failed. The children usually drink milk. He lives at 43 Green Street, London. Smoking may cause lung cancer.

2. S – to be –PP – Ket    

Jane was in hospital last month I am a student of UII. To change a habit is not easy. Polyester is a silk like material.

3. There – to be – S – Ket  



There is a sport hall in the college There are some new books on the shelf. There will be a final exam at the end of this term.

4.a. It – to be – PP – S – Ket  



It is important to study history. It is true that environment affects the learning process. It is no use trying to do that.

4.b. It – KKp – PP – S – Ket 

 

It seems necessary to review the previous lessons. It becomes clear that he is lying. It seems that the new approach will help to solve the problems

4.c. It – KK – O – S – Ket 





It needs a lot of money to build the dam. It will take you ten minutes to get there. It seems that youth today expect much but work a little.

Kesimpulan 

Subyek/Obyek: – Kata ganti, kata benda/kelompok kata benda, gerund, to infinitive, WH-to infinitive dan sub-klosa benda



Predikat: – Kata kerja I(+s/es), Kata Kerja II, to be , Kata kerja bantu (will, can, may, must, have, has, had)



Pelengkap Predikat: – Kata sifat, Preposisi, dan yang sama subyek



Keterangan: – Kata keterangan, kelompok preposisi

Jenis Kata dan Fungsinya

1 Kata Benda (k.b)

Menyebut nama benda

2 Kata Ganti (k.g)

Menggantikan benda

3 Kata Sifat (k.s)

Menyebut sifat, Beautiful, delicious, keadaan, rasa, sick menerangkan kata benda Nama perbuatan atau Develop, die, erupt kejadian Tentang waktu, tempat, Tomorrow, here, frekuensi, cara dsb always, often

4 Kata Kerja (k.k) 5 Kata Keterangan (k.ket)

Cat, woman, bat,movement They, she, it, he, we

6 Kata depan (prep)

Di depan kata benda/dibendakan

In, on, for, etc

7 Kata penghubung Menghubungkan dua And, but, because kata, dua frasa, atau dua kalimat 8 Kata Bantu a. Penunjuk Terletak di muka kt benda benda b. Kata bantu k.k Di muka kata kerja c. Kata bantu penyangat

A, the, this, some, all Will, can, be, have

Di muka kata sifat atau Very, so, rather, quite keterangan

Imbuhan yang menandai kata Benda - ion

Education, evaluation, condition

-ment

Movement, placement, environment

-ness

Happiness, business

-nce

Presence, difference, importance

-ity

Ability, reality

-cy

Fluency, accuracy

-ship

Friendship, leadership

-er/-or

Actor, writer, tutor

-nese

Javanese, balinese, chinese

-ist

Artist, biologist

-hood

Childhood, brotherhood

-ism

Capitalism, heroism

-dom

Kingdom, freedom

-ogy/-ics

Psychology, geology

Imbuhan yang biasanya menandai kata kerja En-

Enlarge, endanger

-ize / -ise

Visualize, practice

-ed

Directed, faced

Imbuhan yang biasanya menandai kata keterangan - ly

Slowly, accurately

-ward

Backward, upward

-ive

Imbuhan yang biasanya menandai kata sifat Native, creative

-able / -ible

Observable, portable

-ous

Famous, dangerous

-ic

Panic, historic

-ful/ -less

Hopeful, painless

-ish

Selfish, childish

-al

Critical, equal, logical

-er/ -est

Smaller, highest

Measurement Standards Laws to regulate measurement were originally developed to prevent fraud. However, units of measurement are now generally defined on a scientific basis, and are established by international treaties. The definition or specification of precise standards of measurement involves two key features, which are evident in the International System of Units (SI). Specifically, in this system the definition of each of the base units makes reference to specific empirical conditions and, with the exception of the kilogram, also to other quantitative attributes. Each derived SI unit is defined purely in terms of a relationship involving itself and other units; for example, the unit of velocity is 1 m/s. Due to the fact that derived units make reference to base units, the specification of empirical conditions is an implied component of the definition of all units.

 

Imperial system Before SI units were widely adopted around the world, the British systems of English units and later Imperial units were used in Britain, the Commonwealth and the United States. The system came to be known as U.S. customary units in the United States and is still in use there and in a few Caribbean countries. These various systems of measurement have at times been called footpound-second systems after the Imperial units for distance, weight and time. Many Imperial units remain in use in Britain despite the fact that it has officially switched to the SI system. Road signs are still in miles, yards, miles per hour, and so on, people tend to measure their own height in feet and inches and beer is sold in pints, to give just a few examples. Similarly, the imperial gallon is used in many countries that are considered metricated at gas/petrol stations, an example being the United Arab Emirates.

 

Take home exam Metric system The metric system is a decimalised system of measurement based on the metre and the gram. It exists in several variations, with different choices of base units, though these do not affect its day-to-day use. Since the 1960s the International System of Units (SI), explained further below, is the internationally recognized standard metric system. Metric units of mass, length, and electricity are widely used around the world for both everyday and scientific purposes. The main advantage of the metric system is that it has a single base unit for each physical quantity. All other units are powers of ten or multiples of ten of this base unit.



Unit conversions are always simple because they will be in the ratio of ten, one hundred, one thousand, etc. All lengths and distances, for example, are measured in meters, or thousandths of a metre (millimeters), or thousands of meters (kilometres), and so on. There is no profusion of different units with different conversion factors as in the Imperial system (e.g. inches, feet, yards, fathoms, rods). Multiples and submultiples are related to the fundamental unit by factors of powers of ten, so that one can convert by simply moving the decimal place: 1.234 metres is 1234 millimetres or 0.001234 kilometres. The use of fractions, such as 2/5 of a meter, is not prohibited, but uncommon.