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Science_Smalan

What is modern science

    

    Science has been defined in many ways. But look at this working definition

 

Science is the system of knowing about the universe through data collected by observation and controlled experimentation.

 

    If you reread this definition of science, you will see there major element; process ( or method) products, and human attitude. Element of science can be visualized in this way

 

1. Process or method certain ways of investigating problem, observing for example, making hypothesis, designing and carry out experiments, evaluating data, measuring and so on
   
2. Product ; fact, principle, laws, theory
   
3. Human attitude: for example suspending judgement until enough data have been collected
   

 

Now to explain what is the meaning:

1. Laws, theory, principle, and fact?
   

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2. What is scientific method? Step of Science method
   

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   The true test of theory in science is threefold:
   

   1. Its ability to explain what has been observed
      
   2. It ability to predict what has not yet been observed, and
      
   3. Its ability to be tested further experimentation and to be modified as required by acquisition data
      

Some people think that once scientists are aware of problem, all they have to do is apply the scientific method. Then by some mysterious process, their answers come pouring forth. This common misconception stems from our memorization, usually in high school or college science, of the scientific method:

1. State problem
   
2. Suggest hypotheses.
   
3. Experiment
   
4. Observe
   
5. Collect and analysis data
   
6. Reexperiment to verify data
   
7. Draw conclusion from data.
   

   
    

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

BIOLOGY

 

    Within the field of science, there are many branches. Biology is the branch of science that deals with living thing and their surrounding. Scientist who work in the field of biology are called biologist. Their research involves explaining how living things grow, reproduce, respond to their surroundings, and use energy. Sometimes we are tempted to define biology in term of those finding. But biology as science is process not a product

 

Science is not just research. It can be, and is, useful in daily life. Applying of knowledge gathered through scientific study is called technology. For example, modern medicine applies the finding of scientist to prevention and treatment of illness. In many cases, scientist and the technician work hand in hand as they investigate unknown.

 

New scientific instrument and computers are making it easier for biologist to study the mysteries of life. One study is the structure of gene. Gene are made of DNA, which is a code that tells the cell which protein to make. Now gene can made within a few hours by a new machine called a DNA synthesizer. Computerized microscope and video system used with fluorescent dyes and laser allow scientist to look into living cells. Computerized technology helps scientist make more accurate measurement, analyze data more thoroughly, and solve many problem in life science.

Explain the another technology that can make biologist work better.

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Element Of Biology

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

    

 

Biology can divided into a number of areas. Some of these division may be seen in figure above.

Botany is the study of plant, zoology the study of animal. Smaller areas might include the study of single groups within these division. For example, one might be interest in studying only insect, bacteria viruses, or mosses.

    Scientist often specialize in narrow areas of study. For example some biologist may limit their scope of study taxonomy, the study of how organisms are grouped or classified. Physiology, how an organisms carries on its life activities, may be the focus for other zoologist. Still other may find that morphology, the study of the structure of living things is more their liking.

 

The organization of materials

    It was decided that the best mechanism for arranging the content was levels of biological organization. There are seven levels of the biological organization.

1. The molecular level.
   

   Here the student encounters such matter as how simple sugars form more complex ones; how the oxidation of simple sugars release energy; the action of enzymes and their consequences for cellular metabolism; the unique chemical bond energy within the biological system; materials transfer within cell; the process of photosynthesis; the hydrogen and carbon pathway of respiration; the control of cell activities by nucleic acid; and the chemical nature of the hereditary code.
   

2. The cellular level.
   

   Here students are concerned with the organelles of cell such as the mitochondria, ribosome, endoplasmic reticulum, membranes, and chloroplast; how the cell multiply by mitosis and cell division; and how germ cell development is affected by meiosis.
   

3. The organ and tissue level
   

   The classical cell-tissue-organ-system progression is presented here, including all organismic system such as transport system, nervous system, and endocrine system, as well as the roots, stems, and leaves, as organ of plant. And the heart, kidney, and brain as organs of human beings. All such content traditionally had been expanded to form the bulk of secondary biology course.
   

4. The organism level
   

   Here the focus is on the complete functioning organism and on the limits imposed upon it by its various systems. Organismic behavior and interaction are an integral part of this level; so, too, are genetic continuity, reproduction, energy utilization, and the unifying systems of of organism in general.
   

5. The population level
   

   Here student learn about the concept of population and how to sample various population; population growth and is relation to food; maintenance of population balance; competition among population; population changes and population problem.
   

6. The community level
   

   The relevant topic here include the structure of a community; the dominant species in a community; community relationships; food chains dan food web; interaction of the living parts of the community with the physical environment
   

7. The world biome level.
   

   This level includes The biotic and abiotic relationship of ecosystem; the relationship of different ecosystems to to the biosphere;continuity in time;and people's place in the biosphere.
   

THE MAJOR THEMES OF BIOLOGY

 

1. Change of living things through time : evolution
   

   Because evolution form the warp and woof of modern biology, it is no longer possible to give a complete or even a coherent account of living thing without discussing evolution. The theory of evolution is as basic to biology as the atomic is to chemistry and physics, and for identical reason. The study of evolution permit biologist to make good sense and to bring order out of similarities and differences among living things. Everywhere the biologist sees the action and consequences of natural selection; of the reproductive isolation of populations; of the effect of size and chance on interbreeding groups. The study of evolution detail of history of organisms, the sequence of unique event in the past from which the biological present originated. The actualities of evolution selected from the many potentialities provide evidence of the selective forces at work and the raw materials on which these forces acted. With a knowledge of evolutionary processes, we have already made great progress in controlling changes in the animals, plant, and protest on which human being depend.
   

   Besides being an historical event, evolution is a present phenomenon. Not only have we identified the site of hereditary information and the structure of the DNA code, but we are t the threshold of creating new life forms. The concept of genetic engineering poses problems of such great magnitude.
   

   Unfortunately many biologist explain the scientific method as a three stage process: first stage of complete doubt called hypothesis, a second stage of uncertainty called theory, and third stage of certainty called fact or principle. Evolution is a theory in that sense, a body of interrelated facts. As new fact re discovered, theory may change in its basic organization, but that does not mean that the present organization is unsound
   

2. Diversity of type and unity of pattern in living things
   

   This theme is related to the theme of evolution, because the diversity of living forms and their daptation to widely differing environmental condition are due to evolution. Cutting across those diversities is a unity of pattern extending form the universal role of ATP as a vehicle for energy transfer among all living things through universality of DNA and RNA as the materials of heredity control. Unity is represented by the role of sugar as the common fuel of life processes, the commonality mitosis in cell division among organism, and the similarity of pattern among the limbs of different vertebrates. Unity is everywhere apparent – and within the wide diversity of living organisms that are evolution's variations on theme.
   

3. The genetic continuity of life
   

   This theme too, is related to evolution, but it emphasize life as a continuing stream and germ plasm as potentially immortal as it is passed from generation to generation. Cooperation of the genetic mechanism that bring bout the creation of genetic mechanisms that bring about the creation of like form like emphasizes the unity expressed in theme two above, but the errors of genetic replication create discontinuities to which we owe the variability and diversity that are also expressed int theme two. Perturbations in the genetic message have introduced a wide variety of potential life forms on wich natural selection has acted, resulting in wide diversity within the biosphere.
   

   
    

   
    

4. The complementarity of organism and environment
   

   Organism and environment interact at all levels of biological organization. The chromosome and the chloroplast heve their individual environments within the cell. The cell, in turn, acts on and is cted on by neighboring cell. Tissues and organisms composed of these cell have their own environments, and the individual organism exists in an environment of other organisms as well as abiotic factors. Population wax and wane response to their environment and in response to internal factors, and the population and their size affect the community and the word biome. Throughout there is a reciprocal relationship between organism and environment. An organism does not simply receive stimuli passively from the environment and respond in a stereotyped fashion. Organism modify their environment and exploid it – human being stand out as the as the foremost example. Interaction between organisms and environment is an integral theme of the living world.
   

5. The biological root of behavior
   
6. The complementarity of structure and function
   

   The complementarity means that what an organ does depend upon its structure. That is the character of an organ's subparts and the pattern in which they are arranged determine function. Conversely, if what an organ does depends upon its structure, then function can be inferred from a given structure. The complementarity of structure and function apply to all levels of biological organization.
   

7. Regulation and homeostasis ; preservation of life In the face of change.
   

   This theme relates to the The complementarity of structure and function. That complementarity does not, how ever, account for the capacity for the capacity of the organism to adjust to change. While it is possible to deduce the function of the heart, studying the complementarity of its structure and function alone would not reveal the varying rate and amplitude of the heartbeat as demands are made by the body in response to changing environmental conditions. Nor would it reveal how the heart becomes sensitive and responsive to these demands. Such adjustments to change are related to homeostasis and regulation. Since homeostasis is the maintenance of a stable internal environment, such dynamic equilibriums as the concentration of metal ion in the blood, as well as its pH and its glucose level, need to be identified. Then it would be possible to determine what mechanisms enable those equilibriums to be maintained in the face of change.
   

8. Science as inquiry.
   

   In addition, the rhetoric of conclusion approach fails to show that the scientist are human and capable of error. Much scientific enquiry has dealt with the correction of error. A rhetoric of conclusions also fails to show that our summarizing concepts are tested by the fruitfulness of the questions they suggest, and through this testing are continually revised and replaced.
   

9. The history of biological concepts
   

   Investigating the history of scientific concepts can play useful role in enabling student to acquire a realistic and understandable view of science and scientist. It can help to reduce extraordinarily unreal, antagonistic, and fantastic view of science and scientist that repeated studies have demonstrated
   

Smalan_Classification

CLASSIFICATION CARD GAME

Students work in small groups. They must cut up the cards and then classify them to the detail that the teacher specifies. Students' answers are written on the table following the answer table below.

 

ORGANISM	CLASSIFICATION GROUP/S
Ant	K. Animalia, P. Arthropoda, C. Insecta
Antelope	K. Animalia, P. Chordata, C. Mammalia (Placental)
Apple	K. Plantae, D. Tracheophyta, C. Angiospermae (Dicotyledon)
Bee	K. Animalia, P. Arthropoda, C. Insecta
Cat	K. Animalia, P. Chordata, C. Mammalia (Placental)
Chicken	K. Animalia, P. Chordata, C. Aves
Coral	K. Animalia, P. Coelenterata / Cnidaria
Crab	K. Animalia, P. Arthropoda, C. Crustacea
Dolphin	K. Animalia, P. Chordata, C. Mammalia (Placental)
Dragonfly	K. Animalia, P. Arthropoda, C. Insecta
Eagle	K. Animalia, P. Chordata, C. Aves
Earthworm	K. Animalia, P. Annelida
Fern	K. Plantae, D. Tracheophyta, C. Filicineae / Filicopsida
Fly	K. Animalia, P. Arthropoda, C. Insecta
Grass	K. Plantae, D. Tracheophyta, C. Angiospermae (Monocotyledon)
Grasshopper	K. Animalia, P. Arthropoda, C. Insecta
Human	K. Animalia, P. Chordata, C. Mammalia (Placental)
Kangaroo	K. Animalia, P. Chordata, C. Mammalia (Marsupial)
Killer Whale	K. Animalia, P. Chordata, C. Mammalia (Placental)
Lizard	K. Animalia, P. Chordata, C. Reptilia
Lobster	K. Animalia, P. Arthropoda, C. Crustacea
Maple Tree	K. Plantae, D. Tracheophyta, C. Angiospermae (Dicotyledon)
Mushroom	K. Fungi
Ostrich	K. Animalia, P. Chordata, C. Aves
Pea	K. Plantae, D. Tracheophyta, C. Angiospermae (Dicotyledon)
Penguin	K. Animalia, P. Chordata, C. Aves
Pine Tree	K. Plantae, D, Tracheophyta, C. Gymnospermae
Rabbit	K. Animalia, P. Chordata, C. Mammalia (Placental)
Rose Bush	K. Plantae, D. Tracheophyta, C. Angiospermae (Dicotyledon)
Sand Dollar	K. Animalia, P. Echinodermata
Scallop	K. Animalia, P. Mollusca
Seahorse	K. Animalia, P. Chordata, C. Osteichthyes
Snail	K. Animalia, P. Mollusca
Snake	K. Animalia, P. Chordata, C. Reptilia
Spider	K. Animalia, P. Arthropoda, C. Arachnida / Chelicerata
Starfish	K. Animalia, P. Echinodermata
Stingray	K. Animalia, P. Chordata, C. Chondrichthyes
Toad	K. Animalia, P. Chordata, C. Amphibia
Trout	K. Animalia, P. Chordata, C. Osteichthyes
Turtle	K. Animalia, P. Chordata, C. Reptilia

 

 

ORGANISM	CLASSIFICATION GROUP/S
Ant
Antelope
Apple
Bee
Cat
Chicken
Coral
Crab
Dolphin
Dragonfly
Eagle
Earthworm
Fern
Fly
Grass
Grasshopper
Human
Kangaroo
Killer Whale
Lizard
Lobster
Maple Tree
Mushroom
Ostrich
Pea
Penguin
Pine Tree
Rabbit
Rose Bush
Sand Dollar
Scallop
Seahorse
Snail
Snake
Spider
Starfish
Stingray
Toad
Trout
Turtle

 

Laporan_smalan

SISTEMATIKA PENULISAN LAPORAN PENELITIAN

• Judul
• Abstrak (berisi ringkasan dari laporan, hasil penelitian, kesimpulan, dan saran)
• Kata Pengantar
• Daftar tabel, gambar, tabel lampiran
• Bab I

a)      Latar Belakang

b)      Rumusan Masalah

c)      Tujuan Penelitian

d)     Manfaat Penelitian

e)      Definisi Operasional/Variabel

f)       Asumsi dan Keterbatasan (kekurangan saat melakukan penlitian)

• Bab II

a)      Landasan Teori/Kajian Pustaka

• Teori-teori yang relevan dengan variable/masalah yang diteliti
• Teori-teori yang relevan dengan aspek-aspek yang diteliti

b)      Hasil Penelitian yang Relevan dengan yang dilakukan oleh Peneliti Lain

• Bab III

a)      Populasi dan Sampel/Subyek Penelitian

b)      Metode Pengumpulan Data (wawancar, tes, observasi, dll.)

c)      Tekhnik Pengelolaan Data/Analisis Data

d)     Pengembangan Instrumen

• Bab IV

a)      Penyajian Data (tabel, grafik, dll.)

b)      Analisis Data

c)      Interpretasi Hasil Analisis Data

• Bab V

Kesimpulan dan Saran (jawaban berdasarkan rumusan masalah)

Keterangan Tata Penulisan (cetakan print out)

• Daftar Pustaka, abstrak, kutipan, tabel, ringkasan ditulis 1 spasi
• Lampiran isinya : instrument-instrumen, data-data, kuesioner
• Kertas yang digunakan kwarto 80 gram
• Sampul menggunakan kertas buffalo/linen/hardcover dengan disertakan tahun waktu laporan
• Pengetikan menggunakn huruf Times New Roman ukuran 12 dan menggunakan 2 spasi
• Paragraf first line dengan menjorok jauhnya 5 karakter
• Top margin (atas) : 4 cm
• Bottom margin (bawah) : 3 cm
• Right margin (kanan) : 3 cm
• Left margin : 4 cm
• Pengetikan bab menggunakan huruf capital (contoh : BAB I) tanpa titik

Perbedaan antara sel perokariotik dan eukariotik

Setiap organisme tersusun dari salah satu diantara dua jenis sel yang secara struktural

berbeda, sel prokariotik dan sel eukariotik. Hanya bakteri dan arkhea; alga hijau biru yang memiliki sel prokariotik. Sedangkan protista, tumbuhan, jamur dan hewan semuanya mempunyai sel eukariotik.

Kenapa dinamakan sel prokariotik dan eukariotik? Apa perbedaannya? Mari kita pelajari.

Sel Prokariotik. Kata prokariota (prokaryote) berasal dari bahasa Yunani, pro yang berarti

"sebelum" dan karyon yang artinya "kernel" atau juga disebut nukleus. Sel prokariotik tidak memiliki nukleus. Materi genetiknya (DNA) terkonsentrasi pada suatu daerah yang disebut nukleoid, tetapi tidak ada membran yang memisahkan daerah nukleoid ini dengan bagian sel lainnya.

Sedangkan sel eukariotik, eu berarti "sebenarnya"dan karyon berarti nukleus. Eukariotik

mengandung pengertian memiliki nukleus sesungguhnya yang dibungkus oleh selubung nukleus.

STRUKTUR	PROKARIOTIK	EUKARIOTIK
MEMBRAN NUKLEUS	-	+
MEMBRAN PLASTIDA	-	+
NUKLEUS	-	+
NUKLEOLUS	-	+
PLASTIDA	-	+/-
MITOKONDRIA	-	+
BADAN GOLGI	-	+
KROMOSOM	+(Tunggal)	+(Ganda)
DNA	+	+
RNA	+	+
HISTON	-	+
PIGMEN	+	+
PEMBELAHAN	AMITOSIS	METOSIS