My Classroom Material 10 - BIOLOGY JUNCTION

Preparing to Study Biology

Students entering college find themselves researching different majors: here is some general info on what you may experience getting a degree in Biology.

Many choices confront you as you move into, through, and ultimately beyond high school. When you reach this last phase, you may be torn between a number of your interests as you consider what school to attend and what majors to consider when you get there. Like you, many including myself struggled with this question and made their choices for better or worse.

Hopefully, your choice brings you closer to what you want to spend the rest of your life doing (which you probably do not even know yet), but whatever you choose, you have arrived at this article due to at least some minor interest in the science of biology. Besides it, take into account that most courses require to write a lot. Moreover, being an active essay writer, a student is more likely to succeed in his/her study. Most students comprehend and memorize material better while making notes.

That established, let me try to tell you a little bit about this wonderful topic which has been my own chosen area of study. I’ll try to cover some areas of interest, the potential for employment, and what to expect from your classes.

General

Biology is the science of life. According to one of the most popular college-level textbooks on the subject by Campbell and Reese: “biology is a central science, and attractive to humans because of our basic curiosity about the world around us”.

Biology is the study of all living things and their interactions with each other and their environments. Biology in general is broken up into several other categories, each a completely defined science in itself. Ecology tends to deal mainly with non-human species interactions, while environmental science tends to deal with the impacts of humans on nature.

Anatomy is the study of the human body or the body of one species, while comparative zoology is the study of the similarities and differences between species. As you can see, biology encompasses and overlaps many other sciences.

The Information Explosion

Students studying anything in high school or college currently are in the midst of what is being called an “information explosion.” The information explosion is a widely used term used to refer to the fact that the human race generates new information at a nearly incomprehensible speed. For example, according to the EMC organization, which studies information and information technology, if you wanted to store all of the current information in the world on electronic media like computer memory, you would be short of enough space by about 35%.

This makes specialization within one’s field a necessity for progress. And many biologists have chosen one special area of interest, such as endocrinology, microbiology, immunology, botany, ichthyology, and genetics; to name only a fraction. This practice of specialization is likely to become more pronounced as time moves forward. As such when you get to the more advanced levels of biology you are likely to develop a favorite area of study, and professors will quickly encourage you to try and become an expert in this topic.

Some Areas You Might Get a Job

Biology in all forms is a very engaging and rewarding science to be a part of. Some of the highest paying jobs find their roots in biology, and so do many of the most perplexing scientific questions of all time. Pharmaceuticals, biochemistry, and medicine are among the most recognized in both of these areas, due to the high amount of interest in our health and wellbeing.

Environmentalism is a popular movement in our society and awareness of the human impact on the planet seems to be ever-growing. Academics and government agencies alike are working on environmental issues such as pollution, overpopulation, and irresponsible agricultural practices. Large corporations are discovering that waste and pollution are huge problems for them. Corporate green advocates, environmental public relations, and efficiency experts are all working to rectify the image of the company as the villain by default. Quite simply it is profitable to be green nowadays, and someone with an understanding of green work practices, an interest in the wellbeing of the planet, and a good sense of public image is valuable to a company.

Academic and research biology is a growing field as well. There are barely enough students to accommodate the staggering number of subjects, and new ones seem to be being created almost every month. All of the topics I have previously mentioned can represent entire degrees in and of themselves, each requiring a great number of courses to master. As for the best essay writing service reddit, academic research leads to important new directions for science including the decoding of the human genome and the now almost commonplace practice of genomics: sequencing and studying the genetic codes of humans and other organisms.

Skills You’ll Need for College

Students of biology will experience all facets of a course in a major science. Writing ability, patience with material and vocabulary, and a keen memory and attention to detail are all essential. An understanding of all other major sciences is likely to be required through general education courses by your school, or as a prerequisite for admission into the program. Most important to the science of biology, arguably, would be a good grasp of mathematics, and an excellent understanding of chemistry. My degree required four semesters of chemistry as a minimum, and many of the upper-level biology classes introduce their chemistry concepts. Expect to deal with reaction equations, practices in working safely with chemicals, an understanding of stoichiometry, and the major molecule types important to live. Math students may find an excellent use for their abilities in both ecology and genetics, which analyze populations a great deal. Any biology student should be prepared for periodic crash courses in other topics, to deal with the complexity of life on Earth.

Conclusion

In short, knowledge of biology is currently on the rise in popularity and demand. Students of biology are a valuable commodity and a proven ability to understand the concepts represented within the science is an indispensable skill, both in monetary and scholarly measurement. If your interests fall within saving the planet, making money, solving the mysteries of life, or becoming famous (for modern celebrity biologists search: Craig Venter, Joe Davis, and Tyrone Hayes to name just a few of my personal favorites), then hopefully you can be persuaded into the study of biology, to use your talents for the benefit of all life in our universe.

Oh, and feel free to quote that last line when employers ask you why you want to work for them.

Mastering Biology Terminology In Introductory Courses

Ideas for increasing retention of vocabulary presented in introductory college-level biology courses.

As a teacher, and previously as a student, I have found one of the more frustrating courses to get through is a large survey course like Intro to Biology. The amount of material covered is often daunting, and no topic is covered in enough detail to allow you to get used to the terminology. One of the largest problems is that many students want to succeed but have no idea how to approach the course. It is highly important for students who constantly need help with writing papers for academic purposes throughout the whole course. One of the first things I tell students is that biology courses should be considered and prepared for the same way you would use for a foreign language course.

How to Remember Biology Terminology

Consider the following tips for learning and remembering the many terms that are associated with the field of biology.

Write the words. Write them in your notes. Re-write your notes. Write them on note cards. Write them with definitions that you put into your own words. Simply transcribing word-for-word from the glossary in the back of your textbook is not going to reinforce the actual meaning of the word.

Speak the words. Say them out loud in class (If you have a professor that does not give opportunities for you to speak in class, you may want to suggest they do!). Say them to your study partner when you are reviewing the material. Say them to the wall in your room when no one else is there. Just say them.

Read the words. Biology textbooks have a lot of words in them. You need to find the parts that describe the specific term you are trying to understand and read that section. Highlighting an entire chapter in yellow is not going to help you remember any of the terms, but sifting through the text to find what you are looking for will.

Hear the words. First, you need to listen in class and try to hear what the professor is saying. Second, you might benefit from recording lectures and listening to them again at another time. Some MP3 players have a record feature that will allow you to do this.

Draw the words. Draw the structure, concept, or pathway that is being discussed, and be sure to include clear labeling. Many students are visual learners, and creating a picture of that term on a piece of paper may help with retention. If you feel you cannot draw, consider one of the biology coloring books widely available, or make a copy of figures out of your text and white out the labels so you can re-fill them.

Break down the words. Most biology terms are based on Latin or Greek root words. By breaking down words you can learn the parts of many terms at once. For example, “city” means “cell,” the term “leuko” means “white,” and hence the term “leukocyte” means “white cell”; a white blood cell to be specific. “Cyte” is also included in the names of many other cell types, including “osteocyte,” “erythrocyte” and “lymphocyte.”

Compare the words. Many of the words used in biology sound very similar, but mean very different things. Find the words that look or sound the same and find ways to remember why they are different. For example, glycogen and glucagon differ by only a few letters, but one is a storage molecule and the other is a hormone. The terms might even be discussed in the same chapter or lecture, as they are both related to regulating blood sugar levels, making them even more tricky when it is time to decide between the two on an exam. You could remember that glucagon releases glucose into the bloodstream, and has an “on” together like the word hormone.

Test the words. The best way to learn is through frequent testing of the material. Now, you do not want to wait until your final exam to try this idea. Take advantage of the multiple choice questions in your textbook, or use the website provided by the text to try out some quizzes. If the course you are taking does not provide any of these tools, create your own! Students must use critical thinking when processing the research on their own or asking someone to write my essay for me while considering biological concepts. This is a very productive way to use your time with a study partner or group. Better yet, each of you prepares a test beforehand and brings it to your session. You can have fun deciding which of you would be the most challenging professor among you!

Succeeding in Your Biology Course

All of these methods may not work for everyone. Different people learn in different ways. Try a few, and if they don’t work, try a few more. One major tip for success is to practice these methods frequently during the course. An all-night cram session is not going to work for this kind of material. Many short review sessions will be much more productive.

Building A Secure Virtual Biology Classroom With VPN

Virtual Biology Classroom VPN Safety — Building a virtual Biology classroom safely using a VPN

Everyone will unhesitatingly agree that providing strong encryption while surfing the Internet is a primary concern for every user. We are always afraid of our data privacy when connecting to Wi-Fi in a public place or transmitting meaningful materials. The list of various ways to implement this includes using a VPN that has long been proven effective.

However, in addition to the need to provide internet security for your data, there are several areas where an online virtual private network connection plays a major role. Among them is secure teaching, requiring a suitable platform and taking into account various points to ensure the comfort of students and tutors.

Why Is It An Essential Tool For Online Learning

Nowadays, more and more educational institutions pay tribute to distance learning, tirelessly working on improving various components of the latter. The recent rise in popularity of online studying is due to the prolonged outbreak caused by the COVID-19 pandemic.

Nonetheless, it is necessary to consider various aspects to ensure private browsing for remote learning. Installing a network extension for Firefox, Safari, Chrome, Opera, and any other browser will help build a virtual Biology classroom safely and with many additional benefits.

Internet security is above all

Although online learning keeps up to date, scammers and various enemies of each user have expanded the range of their atrocities without missing the opportunity to try their strength in this area. Based on this, even at home, your devices can be subjected to various attacks by scammers. For this reason, your first task is setting up a browser network to get rid of any worries about personal data.

The latter will help protect sensitive content transmissions, Zoom meetings, and any other part of distance learning. In this context, it is necessary to emphasize another advantage of using this privacy tool since VeePN and other services will help you bypass various network restrictions. Check out the specifics of different providers to find the best one for building a virtual classroom.

Multiple possibilities for you

An extension for Firefox will be useful for every student, helping to overcome limitations and gain access to many other features. You will be able to avoid several dangers and difficulties, including plagiarism, one of the most serious violations of academic integrity.

Install a virtual private network add on and open many resources that limit the ability to familiarize and use. Thanks to a strong protection, you will be able to get to them, scoop information for academic papers and get the highest grades.

Reliable and legal privacy tool

As long as your activities in cyberspace do not violate any law, using one of these is a legal solution to protect your data. Permission to use this is due to the purpose of a virtual private network aimed at preventing any actions similar to criminal and terrorist offenses.

However, the latter is only effective if your educational institution does not prohibit this way of encrypting traffic. It should also be taken into account that several countries consider installing an add on and other tools as an illegal activity for which the student will be punished.

All-around classroom protection

Students use different devices to attend a virtual classroom, often connecting to public Wi-Fi at a library or other public place. It determines their need for protection and limits to track traffic for intruders. However, there are several reasons to start looking into Firefox settings and other ways to secure your identity. A virtual private network will be the best choice to provide secure teaching anytime and anywhere.

Encrypting your network activity is the primary benefit of a browser network, divided into many aspects related to distance learning. It is necessary to carefully understand all the details of building a secure biology classroom with one of these private networks to get everything it can offer.

A Few Recommendations

Although there is a long list of benefits of installing an extension for Firefox or a router, it is necessary to be attentive to details and keep in mind several pitfalls. Once you understand all the nuances and risks, you can find the best way to use one of these for distance learning. Among the specific tips regarding this are:

familiarization with Firefox VPN settings highlighting the most significant points to remember
backing up network files and data will not be superfluous
downloading content from illegal resources would not be a good idea
do not neglect the security of the school email account
be aware while surfing the Internet and so on.

A good source of information based on which you decide which VPN servers are best for secure teaching will be other users’ experience. Take the time to familiarize yourself with the reviews presented in the public domain.

Final Thoughts

All of the above aspects indicate that using a virtual private network in distance learning is worth it. It can not only provide private browsing but also open up many significant features aimed at improving the student’s academic performance. However, the latter requires learning about different subtleties to avoid difficulties or know how to act when faced with them.

The choice of private extension for Firefox and other browsers is not the last factor in this list. Therefore, it is significant to pay attention to the consideration of the specifics of each. Remember that although no tool is perfect, understanding the modus operandi and possible complications will make the use as efficient as possible.

AP Essay Questions

AP Biology Essay Questions

The following is a comprehensive list of essay questions that have been asked on past AP exams. The questions are organized according to units.

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Unit 1 (Basic Chemistry and Water)

1. The unique properties (characteristics) of water make life possible on Earth. Select three properties of water and:

1. 1. for each property, identify and define the property and explain it in terms of the physical/chemical nature of water.
  2. for each property, describe one example of how the property affects the functioning of living organisms.

Unit 2 (Organic Chemistry, Biochemistry, and Metabolism)

2. Describe the chemical composition and configuration of enzymes and discuss the factors that modify enzyme structure and/or function.

3. After an enzyme is mixed with its substrate, the amount of product formed is determined at 10-second intervals for 1 minute. Data from this experiment are shown below:

Time (sec)	0	10	20	30	40	50	60
Product formed (mg)	0.00	0.25	0.50	0.70	0.80	0.85	0.85

Draw a graph of these data and answer the following questions.

1. What is the initial rate of this enzymatic reaction?
2. What is the rate after 50 seconds? Why is it different from the initial rate?
3. What would be the effect on product formation if the enzyme where heated to a temperature of 100° C for 10 minutes before repeating the experiment? Why?
4. How might altering the substrate concentration affect the rate of the reaction? Why?
5. How might altering the pH affect the rate of the reaction? Why?

4. Enzymes are biological catalysts.

Relate the chemical structure of an enzyme to its specificity and catalytic activity.
Design a quantitative experiment to investigate the influence of pH or temperature on the activity of an enzyme.
Describe what information concerning the structure of an enzyme could be inferred from your experiments.

Unit 3 (Cell Structure and Function, Cell division)

5. Describe the fluid-mosaic model of a plasma membrane. Discuss the role of the membrane in the movement of materials through it by each of the following processes:

Active transport
Passive transport

6. Describe the structure of a eukaryotic plant cell. Indicate the ways in which a nonphotosynthetic prokaryotic cell would differ in structure from this generalized eukaryotic plant cell.

7. Discuss the process of cell division in animals. Include a description of mitosis and cytokinesis, and of the other phases of the cell cycle. Do Not include meiosis.

8. A laboratory assistant prepared solution of 0.8 M, 0.6 M, 0.4 M, and 0.2 M sucrose, but forgot to label them. After realizing the error, the assistant randomly labeled the flasks containing these four unknown solutions as flask A, flask B, flask C, and flask D.

Design an experiment, based on the principles of diffusion and osmosis, that the assistant could use to determine which of the flasks contains each of the four unknown solutions. Include in your answer (a) a description of how you would set up and perform the experiment: (b) the results you would expect from your experiments: and (c) an explanation of those results based on the principles involved. (Be sure to clearly state the principles addressed in your discussion.)

9. Cells transport substances across their membranes. Choose THREE of the following four types of cellular transport.

- Osmosis
- Active Transport
- Facilitated Diffusion
- Endocytosis/exocytosis

For each of the three transport types you choose,

1. Describe the transport process and explain how the organization of cell membranes functions in the movement of specific molecules across membranes; and
2. Explain the significance of each type of transport to a specific cell (you may use difference cell types as examples.)

Unit 4 (Photosynthesis and Cellular Respiration)

10. Describe the similarities and differences between the biochemical pathways of aerobic respiration and photosynthesis in eukaryotic cells. Include in your discussion the major reactions, the end products, and energy transfers.

11. The rate of photosynthesis may vary with changes that occur in environmental temperature, wavelength of light, and light intensity. Using a photosynthetic organism of your choice, choose only ONE of the three variables (temperature, wavelength of light, or light intensity) and for this variable

- design a scientific experiment to determine the effect of the variable on the rate of photosynthesis for the organism;
- explain how you would measure the rate of photosynthesis in your experiment;
- describe the results you would expect. Explain why you would expect these results.

12. Describe the light reactions of photosynthesis and, for both a C3 and a C4 plant, trace the path of a carbon dioxide molecule from the point at which it enters a plant to its incorporation into a glucose molecule. Include leaf anatomy and biochemical pathways in your discussion of each type of plant.

13. Explain what occurs during the Krebs (citric acid) cycle and electron transport by describing the following:

1. The location of the Krebs cycle and electron transport chain in mitochondria.
2. The cyclic nature of the reactions in the Krebs cycle.
3. The production of ATP and reduced coenzymes during the cycle.
4. The chemiosmotic production of ATP during electron transport.

14. Membranes are important structural features of cells.

1. Describe how membrane structure is related to the transport of materials across the membrane.
2. Describe the role of membranes in the synthesis of ATP in either cellular respiration or photosynthesis.

15. Energy transfer occurs in all cellular activities. For 3 of the following 5 processes involving energy transfer, explain how each functions in the cell and give an example. Explain how ATP is involved in each example you choose.

- - - cellular movement
    - active transport
    - synthesis of molecules
    - chemiosmosis
    - fermentation

16. The results below are measurements of cumulative oxygen consumption by germinating and dry seeds. Gas volume measurements were corrected for changes in temperature and pressure.

Cumulative Oxygen Consumed (mL)
Time (minutes)	0	10	20	30	40
22° C Germinating Seeds	0.0	8.8	16.0	23.7	32..0
Dry Seeds	0.0	0.2	0.1	0.0	0.1
10° C Germinating Seeds	0.0	2.9	6.2	9.4	12.5
Dry Seeds	0.0	0.0	0.2	0.1	0.2

1. 1. Using the graph paper provided, plot the results for the germinating seeds at 22° C and at 10° C.
  2. Calculate function the rate of oxygen consumption for the germinating seeds at 22° C, using the time interval between 10 and 20 minutes.
  3. Account for the differences in oxygen consumption observed between:
    1. germinating seeds at 22° C and at 10° C
    2. germinating seeds and dry seeds
  4. Describe the essential features of an experimental apparatus that could be used to measure oxygen consumption by a small organism. Explain why each of these features is necessary.

Unit 5 (Meiosis, Mendelian Genetics, DNA Replication)

17. State the conclusions reached by Mendel in his work on the inheritance of characteristics. Explain how each of the following deviates from these conclusions.

1. Autosomal linkage.
2. Sex-linked (X-linked) inheritance.
3. Polygenic (multiple-gene) inheritance.

18. Experiments by the following scientists provided critical information concerning DNA. Describe each classical experiment and indicate how it provided evidence for the chemical nature of the gene.

1. Hershey and Chase- bacteriophage replication
2. Griffith and Avery, MacLeod and McCarty- bacterial transformation
3. Meselson and Stahl- DNA replication in bacteria

19. Discuss Mendel’s laws of segregation and independent assortment. Explain how the events of meiosis I account for the observations that led Mendel to formulate these laws.

20. An organism is heterozygous at two genetic loci on different chromosomes.

1. 1. Explain how these alleles are transmitted by the process of mitosis to daughter cells.
  2. Explain how these alleles are distributed by the process of meiosis to gametes.
  3. Explain how the behavior of these two pairs of homologous chromosomes during meiosis provides the physical basis for Mendel’s two laws of inheritance.

Labeled diagrams that are explained in your answer may be useful.

Unit 6 (Protein Synthesis, Gene Expression, DNA Technology)

21. A portion of specific DNA molecule consists of the following sequence of nucleotide triplets.

TAC GAA CTT GGG TCC

This DNA sequence codes for the following short polypeptide.

methionine – leucine – glutamic acid – proline – arginine

Describe the steps in the synthesis of this polypeptide. What would be the effect of a deletion or an addition in one of the DNA nucleotides? What would be the effects of a substitution in one of the nucleotides?

22. Describe the operon hypothesis and discuss how it explains the control of messenger RNA production and the regulation of protein synthesis in bacterial cells.

23. Scientists seeking to determine which molecule is responsible for the transmission of characteristics from one generation to the next knew that the molecule must (1) copy itself precisely, (2) be stable but able to be changed, and (3) be complex enough to determine the organism’s phenotype.

Explain how DNA meets each of the three criteria stated above.
Select one of the criteria stated above and describe experimental evidence used to determine that DNA is the hereditary material.

24. Describe the biochemical composition, structure, and replication of DNA. Discuss how recombinant DNA techniques may be used to correct a point mutation.

25. Describe the production and processing of a protein that will be exported from a eukaryotic cell. Begin with the separation of the messenger RNA from the DNA template and end with the release of the protein at the plasma membrane.

26. Describe the steps of protein synthesis, beginning with the attachment of a messenger RNA molecule to the small subunit of a ribosome and ending generalized with the release of the polypeptide from the ribosome. Include in your answer a discussion of how the different types of RNA function in this process.

27. The diagram below shows a segment of DNA with a total length of 4,900 base pairs. The arrows indicate reaction sites for two restriction enzymes (enzyme X and enzyme Y).

1. Explain how the principles of gel electrophoresis allow for the separation of DNA fragments.
2. Describe the results you would expect from the electrophoresis separation of fragments from the following treatments of the DNA segment above. Assume that the digestions occurred under appropriate conditions and went to completion.
  1. DNA digested with only enzyme X
  2. DNA digested with only enzyme Y
  3. DNA digested with enzyme X and enzyme Y combined
  4. Undigested DNA
3. Explain both of the following.
  1. The mechanism of action of restriction enzymes.
  2. The different results you would expect if a mutation occurred at the recognition site for enzyme Y.

28. By using the techniques of genetic engineering, scientists are able to modify genetic materials so that a particular gene of interest from one cell can be incorporated into a different cell.

- - - Describe a procedure by which this can be done.
    - Explain the purpose of each step of your procedure.
    - Describe how you could determine whether the gene was successfully incorporated.
    - Describe an example of how gene transfer and incorporation have been used in biomedical or commercial applications.

29. Assume that a particular genetic condition in a mammalian species causes an inability to digest starch. This disorder occurs with equal frequency in males and females. In most cases, neither parent of affected offspring has the condition.

1. 1. Describe the most probable pattern of inheritance for this condition. Explain your reasoning. Include in your discussion a sample cross(es) sufficient to verify your proposed pattern.
  2. Explain how a mutation could cause this inability to digest starch.
  3. Describe how modern techniques of molecular biology could be used to determine whether the mutant allele is present in a given individual.

Unit 7 (Evolution, Population Genetics, Speciation)

29. Describe the special relationship between the two terms in each of the following pairs.

1. Convergent evolution of organisms and Australia.
2. Blood groups and genetic drift.
3. Birds of prey and DDT.

30. Describe the modern theory of evolution and discuss how it is supported by evidence from two of the following areas.

1. population genetics
2. molecular biology
3. comparative anatomy and embryology

31. Describe the process of speciation. Include in your discussion the factors that may contribute to the maintenance of genetic isolation.

32. Do the following with reference to the Hardy-Weinberg model.

1. Indicate the conditions under which allelic frequencies (p and q) remain constant from one generation to the next.
2. Calculate, showing all work, the frequencies of the alleles and the frequencies of the genotypes in a population of 100,000 rabbits, of which 25,000 are white and 75,000 are agouti. (In rabbits the white color is due to a recessive allele, w, and the agouti is due to a dominant all, W.)
3. If the homozygous dominant condition were to become lethal, what would happen to the allelic and genotypic frequencies in the rabbit population after two generations?

33. Evolution is one of the major unifying themes of modern biology.

1. Explain the mechanisms that lead to evolutionary change.
2. Describe how scientists use each of the following as evidence for evolution.
  1. Bacterial resistance to antibodies.
  2. Comparative biochemistry.
  3. The fossil record.

34. Genetic variation is the raw material for evolution.

1. Explain three cellular and/or molecular mechanisms that introduce variation into the gene pool of a plant or animal population.
2. Explain the evolutionary mechanisms that can change the composition of the gene pool.

35. In a laboratory population of diploid, sexually reproducing organisms a certain trait is studied. This trait is determined by a single autosomal gene and is expressed as two phenotypes. A new population was created by crossing 51 pure breeding (homozygous) dominant individuals with 49 pure breeding (homozygous) individuals. After four generations, the following results were obtained.

Number of Individuals
Generation	Dominant	Recessive	Total
1	51	49	100
2	280	0	280
3	240	80	320
4	300	100	400
5	360	120	480

1. Identify an organism that might have been used to perform this experiment, and explain why this organism is a good choice for conducting this experiment.
2. On the basis of the data, propose a hypothesis that explains the change in phenotypic frequency between generation 1 and generation 3.
3. Is there evidence indicating whether or not this population is in Hardy-Weinberg equilibrium? Explain.

Unit 8 (Chemical Evolution, Prokaryotes, Eukaryote Evolution, Protista)

36. Scientists recently have proposed a reorganization of the phylogenetic system of classification to include the domain, a new taxonomic category higher (more inclusive) than the Kingdom category, as shown in the following diagram.

Universal Ancestor

Domain Bacteria Domain Archaea Domain Eukarya

(Eubacteria) (Archaebacteria) (Eukaryotes)

- describe how this classification scheme presents different conclusions about the relationships among living organisms than those presented by the previous five-kingdom system of classification
- describe three kinds of evidence that were used to develop the taxonomic scheme above, and explain how this evidence was used. The evidence may be structural, physiological, molecular, and/or genetic.
- Describe
- four of the characteristics of the universal ancestor.

Unit 9 (Introduction to Plants, Fungi, Invertebrates)

37. In the life cycles of a fern and a flowering plant, compare and contrast each of the following:

1. The gametophyte generation.
2. Sperm transport and fertilization.
3. Embryo protection.

38. Describe the differences between the terms in each of the following pairs.

1. 1. Coelomate versus acoelomate body plan.
  2. Protostome versus deuterostome development.
  3. Radial versus bilateral symmetry.
  4. Explain how each of these pairs of features was important in constructing the phylogenetic tree shown below. Use specific examples from the tree in your discussion.

Unit 10 (Vertebrates, Basic Animal Structure and Function)

39. Select two of the following three pairs and discuss the evolutionary relationships between the two members of each pair you have chosen. In your discussion include structural adaptations and the functional significance.

Pair A: green algae—vascular plants

Pair B: prokaryotes—eukaryotes

Pair C: amphibians—reptiles

Unit 11 (Animal Nutrition, Circulation, Respiration, Immune System)

40. Describe the structure of a mammalian respiratory system. Include in your discussion the mechanisms of inspiration and expiration.

41. Describe the processes of fat and protein digestion and product absorption as they occur in the human stomach and small intestine. Include a discussion of the enzymatic reactions involved.

42. Describe the following mechanisms of response to foreign materials in the human body.

1. The antigen-antibody response to a skin graft from another person.
2. The reactions of the body leading to inflammation of a wound infected by bacteria.

43. Discuss the processes of exchange of O2 and CO2 that occur at the alveoli and muscle cells of mammals. Include in your answer a description of the transport of these gases in the blood.

44. Many physioligical changes occur during exercise.

1. Design a controlled experiment to test the hypothesis that an exercise session causes short-term increases in heart rat and breathing rate in humans.
2. Explain how at least three organ systems are affected by this increased physical activity and discuss interactions among these systems.

45. The graph below shows the response of the human immune system to exposure to an antigen. Use this graph to answer part a and part b of this question.

1. 1. Describe the events that occur during period I as the immune system responds to the initial exposure to the antigen.
  2. Describe the events that occur during period II following a second exposure to the same antigen.
  3. Explain how infection by the AIDS virus (HIV) affects the function of both T and B lymphocytes.

Unit 12 (Homeostasis, Reproduction, Development)

47. Discuss the processes of cleavage, gastrulation, and neurulation in the frog embryo; tell what each process accomplishes. Describe an experiment that illustrates the importance of induction in development.

48. The evolutionary success of organisms depends on reproduction. Some groups of organisms reproduce asexually, some reproduce sexually, while others reproduce both sexually and asexually.

1. 1. Using THREE difference organisms, give an example of one organism that reproduces sexually, one that reproduces asexually, and one that reproduces BOTH sexually and asexually. For each organism given as an example, describe two reproductive adaptations. These adaptations may be behavioral, structural, and/or functional.
  2. What environmental conditions would favor sexual reproduction? Explain. What environmental conditions would favor asexual reproduction? Explain.

Unit 13 (Endocrine System, Nervous System, Sensory and Motor Mechanisms)

49. Discuss the sources and actions of each of the following pairs of hormones in humans and describe the feedback mechanisms that control their release.

1. Insulin—glucagon
2. Parathyroid hormone—calcitonin
3. Thyrotropin (TSH)—thyroxine (T4)

50. Beginning at the presynaptic membrane of the neuromuscular junction, describe the physical and biochemical events involved in the contraction of a skeletal muscle fiber. Include the structure of the fiber in your discussion.

52. Describe the negative and positive feedback loops, and discuss how feedback mechanisms regulate each of the following.

1. The menstrual cycle in nonpregnant human female.
2. Blood glucose levels in humans.

53. Discuss how cellular structures, including the plasma membrane, specialized endoplasmic reticulum, cytoskeletal elements, and mitochondria, function together in the contraction of skeletal muscle cells.

54. Structure and function are related in the various organ systems of animals. Select two of the following four organ systems in vertebrates:

- respiratory
- digestive
- excretory
- nervous

For each of the two systems you choose, discuss the structure and function of two adaptations that aid in the transport or exchange of molecules (or ions). Be sure to relate structure to function in each example.

Unit 14 (Plant Structure and Function)

55. Relate the structure of an angiosperm leaf to each of the following:

1. Adaptations for photosynthesis and food storage.
2. Adaptations for food translocation and water transport.
3. Specialized adaptations to a desert environment.

56. Define the following plant responses and explain the mechanism of control for each. Cite experimental evidence as part of your discussion.

1. Phototropism
2. Photoperiodism

57. Describe the structure of a bean seed and discuss its germination to the seedling stage. Include in your essay hormonal controls, structural changes, and tissue differentiation.

58. Describe the effects of plant hormones on plant growth and development. Design an experiment to demonstrate the effect of one of these plant hormones on plant growth and development.

59. Trace the pathway in a flowering plant as the water moves from the soil through the tissues of the root, stem, and leaves to the atmosphere. Explain the mechanisms involved in conducting water through these tissues.

60. Discuss the adaptations that have enabled flowering plants to overcome the following problems associated with life on land.

1. The absence of an aquatic environment for reproduction.
2. The absence of an aquatic environment to support the plant body.
3. Dehydration of the plant.

61. A group of students designed an experiment to measure transpiration rates in a particular species of herbaceous plant. Plants were divided into four groups and were exposed to the following conditions.

Group I-	Room conditions (light, low humidity, 20° C, and little air movement.)
Group II-	Room conditions with increased humidity.
Group III-	Room conditions with increased air movement (fan)
Group IV-	Room conditions with additional light

The cumulative water loss due to transpiration of water from each plant was measured at 10-minute intervals for 30 minutes. Water loss was expressed as milliliters of water per square centimeter of leaf surface area. The data for all plants in Group I (room conditions) were averaged. The average cumulative water loss by the plants in Group I is presented in the table below.

Average Cumulative Water Loss by the Plants in Group I
Time (minutes)	Average Cumulative Water Loss (milliliter H2O centimeter2)
10	3.5 x 10-4
20	7.7 x 10-4
30	10.6 x 10-4

1. Construct and label a graph using the data for Group I. Using the same set of axes, draw and label three additional lines representing the results that you would predict for Groups II, III, and IV.
2. Explain how biological and physical processes are responsible for the difference between each of your predictions and the data for Group I.
3. Explain how the concept of water potential is used to account for the movement of water from the plant stem to the atmosphere during transpiration.

62. Numerous environmental variables influence plant growth. Three students each planted a seedling of the same genetic variety in the same type of container with equal amounts of soil from the same source. Their goal was to maximize their seedling’s growth by manipulating environmental conditions. Their data are shown below.

Plant Seedling Mass (grams)
Day 1	Day 30
Student A	4	24
Student B	5	35
Student C	4	64

1. 1. Identify three different environmental variables that could account for differences in the mass of seedlings at day 30. Then choose one of these variables and design an experiment to test the hypothesis that your variable affects growth of these seedlings.
  2. Discuss the results you would expect if your hypothesis is correct. Then provide a physiological explanation for the effect of your variable on plant growth.

Unit 15 (Ecology)

63. Define and explain the role of each of the following in social behavior.

1. Territoriality.
2. Dominance hierarchies.
3. Courtship behavior.

64. Describe the trophic levels in a typical ecosystem. Discuss the flow of energy through the ecosystem, the relationship between the different trophic levels, and the factors that limit the number of trophic levels.

65. Describe and give an example of each of the following. Include in your discussion the selection advantage of each.

1. Pheromones.
2. Mimicry.
3. Stereotyped behavior (instinct).

66. Describe the process of ecological succession from a pioneer community to a climax community. Include in your answer a discussion of species diversity and interactions, accumulation of biomass, and energy flow.

67. Describe releasers, imprinting, and communications, as each of these terms relates to animal behavior. You may include in your answer a discussion of the classical studies of Niko Tinbergen, Konrad Lorenz, and Karl von Frisch.

68. Describe the biogeochemical cycles of carbon and nitrogen. Trace these elements from the point of their release from a decaying animal to their incorporation into a living animal.

69. Using an example for each, discuss the following ecological concepts.

1. Succession
2. Energy flow between trophic levels.
3. Limiting factors.
4. Carrying capacity.

70. Living organisms play an important role in the recycling of many elements within an ecosystem. Discuss how various types of organisms and their biochemical reactions contribute to the recycling of either carbon or nitrogen in an ecosystem. Include in your answer one way in which human activity has an impact in the nutrient cycle you have chosen.

71. Survival depends on the ability of an organism to respond to changes in its environment. Some plants flower in response to changes in day length. Some mammals may run or fight when frightened. For both of these examples, describe the physiological mechanisms involved in the response.

72. Interdependence in nature is illustrated by the transfer of energy through trophic levels. The diagram below depicts the transfer of energy in a food web of an Arctic lake located in Alaska (J )

1. 1. Choosing organisms from four different trophic levels of this food web as examples, explain how energy is obtained at each trophic level.
  2. Describe the efficiency of energy transfer between trophic levels and discuss how the amount of energy available at each trophic level affects the structure of the ecosystem.
  3. If the cells in the dead terrestrial plant material that washed into the lake contained a commercially produced toxin, what would be the likely effects of this toxin on this food web? Explain.


Noon	174.0
4 p.m.	350.5
8 p.m.	60.5
midnight	8.0

For the data above, provide information on each of the following.

- Summarize the pattern.
- Identify THREE physiological or environmental variables that could cause the slugs to vary their distance from each other.
- Explain how each variable could bring about the observed pattern of distribution.

Choose ONE of the variables that you identified and design a controlled experiment to test your hypothetical explanation. Describe results that would support or refute your hypothesis.

Cumulative Essays

74. Describe how the following adaptations have increased the evolutionary success of the organisms that possess them. Include in your discussion the structure and function related to each adaptation.

1. C4 metabolism
2. Amniotic egg
3. Four-chambered heart
4. Pollen

75. Describe the anatomical and functional similarities and difference within each of the following pairs of structures.

1. Artery—vein
2. Small intestine—colon
3. Skeletal muscle—cardiac muscle
4. Anterior pituitary—posterior pituitary

76. Discuss how each of the following has contributed to the evolutionary success of the organisms in which they are found.

1. seeds
2. mammalian placenta
3. diploidy

77. Angiosperms (flowering plants) and vertebrates obtain nutrients from their environment in different ways.

1. Discuss the type of nutrition and the nutritional requirements of angiosperms and vertebrates.
2. Describe 2 structural adaptations in angiosperms for obtaining nutrients from the environment. Relate structure to function.
3. Interdependence in nature is evident in symbiosis. Explain tow symbiotic relationships that aid in nutrient uptake, using examples from angiosperms and/or vertebrates. (Both examples may be angiosperms, both may be vertebrates, or one may be from each group.

78. The problem of survival of animals on land are very different from those of survival of animals in an aquatic environment. Describe four problems associated with animal survival in terrestrial environments but not in aquatic environments. For each problem, explain an evolutionary solution.

79. The survival of organisms depends on regulatory mechanisms at various levels. Choose THREE from the following examples. Explain how each is regulated.

- The expression of a gene.
- The activity of an enzyme.
- The cell cycle.
- The internal water balance of a plant.
- The density of a population.

80. Photosynthesis and cellular respiration recycle oxygen in ecosystems. Respond to TWO (and only two) of the following:

1. Explain how the metabolic processes of cellular respiration and photosynthesis recycle oxygen.
2. Discuss the structural adaptations that function in oxygen exchange between each of the following organisms and its environment: a plant; an insect; a fish.
3. Trace a molecule of O2 from the environment to a muscle cell in a vertebrate of your choice.

81. Biological recognition is important in many processes at the molecular, cellular, tissue, and organismal levels. Select three of the following, and for each of the three that you have chose, explain how the process of recognition occurs and give an example of each.

1. Organisms recognize others as members of their own species.
2. Neurotransmitters are recognized in the synapse.
3. Antigens trigger antibody response.
4. Nucleic acids are complementary.
5. Target cells respond to specific hormones.

82. Communication occurs among the cells in a multicellular organism. Choose THREE of the following examples of cell-to-cell communication, and for each example, describe the communication that occurs and the types of responses that result from this communication.

communication between two plant cells
communication between two immune-system cells
communication either between a neuron and another neuron, or between a neuron and a muscle cell
communication between a specific endocrine-gland cell and its target cell

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5 Golden Rules of Successful Biology Research

Doing successful biology research is not as easy as it seems. There are 5 golden rules that you should always follow if you want to get the most out of your project. In this blog post, we will discuss these rules and provide some tips on how to implement them in your own work. So, whether you are just starting out in biology research or you have been doing it for years, be sure to read on!

Rule 1: Know Your Audience

When you’re doing research for a biology project, it’s important to keep your audience in mind. You’ll likely be presenting your findings to a teacher or classmates, so you’ll need to choose a topic that’s appropriate for their level of understanding.

For example, if you’re researching for a high school biology class, you wouldn’t want to write about something too complex or controversial. However, if you’re doing research for a college biology class, you can feel free to explore more complicated topics. In general, it’s always a great idea to check with your teacher before starting your research to make sure you’re on the right track. By taking the time to understand your audience, you’ll be able to create a more successful biology research project.

Rule 2: Don’t Be Afraid to Ask for Help

Asking for help is a natural part of the research process. No one knows everything, and even the most experienced biologists need assistance from time to time. If you’re thinking, should I pay someone to write my research paper? The answer is, it depends. Research paper writing can be very challenging. Without the right tools, you might end up disappointed with your result. If you’re afraid that might happen, then the best thing to do is buy a research paper online. You could search for ‘write my research paper’ on your favorite engine and set up an appointment with a writing specialist.

You could also consult with a professor or other expert in the field. If you don’t know anyone who specializes in biology, you can try reaching out to a librarian or searching for online resources. Another great way to get help is to ask fellow students who might be working on similar projects. No matter how you choose to get help, don’t be afraid to ask for it when you need it. Doing so will allow you to make the most of your research and produce the best possible results.

Learn the 5 Golden Rules for Successful Biology Research

Rule 3: Pick a Topic That You Are Passionate About

When it comes to research, picking a topic that you’re passionate about can make all the difference. Not only will you be more likely to enjoy the process of research, but you’ll also be more likely to stick with it even when the going gets tough. And trust me, there will be tough times. There will be days when you feel like you’re getting nowhere when all your hard work seems to be for nothing.

But if you care about your topic, if you’re invested in finding out the answer to your question, then you’ll keep going. You’ll find a way to push through the difficult times and come out on the other side with new knowledge and a sense of accomplishment. So if you’re thinking about starting a research project, ask yourself: what is a topic that I’m passionate about? Once you have your answer, you’ll be one step closer to success.

Rule 4: Do Your Research

When you’re doing biology research, it’s important to do your research. That may sound like a no-brainer, but you’d be surprised how many people skimp on this step. They’ll read a few books or articles, maybe talk to a few experts, and then start writing. The problem is that they haven’t really taken the time to understand the topic inside and out. As a result, their work is often inaccurate or incompetent.

So if you’re serious about doing great, successful biology research, take the time to immerse yourself in the literature. Read everything you can get your hands on. Talk to as many experts as possible. And only when you have a thorough understanding of the topic should you start writing.

Rule 5: Stay Organized and Keep Track of Your Progress

As a biology researcher, it’s also important to stay organized and keep track of your progress. That way, you can avoid duplication of effort and make sure that you’re making the best use of your time. There are a few different ways to do this. First, make sure to keep records of your experiments. Note down what you did, the results you receive, and any observations you made.

Second, create a project plan that outlines the steps you need to take to complete your research. This will help you stay on track and identify any potential problems early on. Finally, don’t be afraid to ask for help online, from your supervisor or colleagues. They can offer valuable insights and feedback that can help improve the quality of your work!