Ever since elementary school, you’ve been practising taking multiple choice question test. Whether it’s the STAR test or other kinds of test. But you really should know by now some basic techniques on how to address these kind of what I like to call multiple guess questions. Essays on the other hand, you did start working on how to write an essay maybe in fourth or fifth grade. Then junior high your teacher started banging over your head, “You need to have an introductory paragraph and three body paragraphs and then a conclusion.” Many of you are taking AP English right now, and they’re really hitting you with how to have smooth transitions and restate your thesis statement and all these other stuff.
That’s all going to go to waste now because, when you take the AP biology Essay questions all of that stuff your English teachers taught you, complete and utterly useless. But don’t worry I’m going to help you.
My students on the AP test, they are typically scoring one or two points higher than the national average on the essay questions. And part of that is because I’ve sat down and I have analyzed how do they grade these essays? Then I teach my kids exactly how to attack them.
To me all tests are a game. And if you know how the game is played, you can do a lot better. Similarly, I don’t really like some of the guys who grade the AP exam. I feel completely and utterly happy to show you how to use their own rules against them. We’re going to work together to stick it to them. I’m going to begin by first just talking about generically, how should you write an AP Biology essay? Then I’ll take a quick look at the two different types of essay questions, and I’ll give you a few tips that are specific to those two different types.
What are some of the basic tricks that will help you on any AP biology essay? Let’s start with read the question.
They give you ten minutes to read all four questions on the essay. So make sure you use those ten minutes. They started doing that several years ago, I don’t know when you’re going to watch this. And what happened is that they had discovered when they gave kids just 90 minutes to read and write, a lot of kids were just reading them way too fast, and had no idea what they were actually writing an answer to.
So make sure you read the question underline. If they say describe, then describe. If they say compare and contrast, they want how are they similar, how are they different. Make sure you answer their question. I really emphasize that. Because I’ve had kids read a question and say I don’t really like that question and they invent their own and start answering it.
Don’t waste time with your English skills. Don’t restate the questions. Don’t have transitions. Don’t do generalizations. Just start vomiting up facts. Now, the one thing is, you cannot have an outline or bullet points it must appear from a distance if somebody was looking at your paper wasn’t actually reading but looking at it from a distance it needs to at least appear to be and essay. You need to have sentences and don’t forget that you have verbs now and then. No outlines and no bullet points.
During the ten minutes when you’re reading the question you can jot down ideas that’s fine but when you start writing your answers it needs to be in sentence form. Be very careful one thing that will screw kids up is the use of pronouns like it because a lot of us get very clumsy with our pronouns. Well remember you’re being graded by some kind of anal retarded guys and they’ll see it they go, “Well let’s see their last direct object was this and he used it I know what he meant to write but he did write as wrong.” You get no points. Be very careful that’s the only real English skill to use. Make sure you write all parts of the questions.
Typically these questions are broken down into part A and B or sometimes A, B and C. If you wan to maximize your score you need to write something for every single part.
Usually the way they break it down is if there’s three parts then the part A is worth four points, part B is worth four points and part C is worth four points. You may be wondering that’s 12 points. What that does is it allows you to say get four points here, three points here and three points here and you still get a max 10. Because they recognize that the breath of the AP exam, it covers, as they told me 130% of what any one freshman college class in Biology can cover.
What they do is, by having this broad diversity and more points possible on the Rubric, then the maximum score is, they’re hoping they’ll be able to allow kids say in California who have teachers that focus on thing to be getting points just like the kids in Florida, whose teachers may be covering other stuff that the California teachers aren’t.
Next up if you draw any pictures make sure you show them exactly what you mean. You have to refer to those diagrams in your essay because doodles they won’t pay attention to, but what you do is you draw and you label it. Then you say as you can see my diagram to the right if you’re going to be talking about DNA for example and you just want to draw the Double Helix? Go ahead and say DNA has a Double Helix shape as you can see in my drawing to the right and maybe label it DNA Double Helix.
Sometimes I’ve seen Rubrics where they just gave a point for having a diagram so why not add it in. Next up state the obvious. I have my kids take lots of practice essays and they get graded on. When they look at the grading Rubrics, they some times, “Well why didn’t I write that it’s obvious,” like describe the structure of the cell and the various functions of the organelles.
They won’t say things like there’s the membrane they think well that’s too obvious they start tying to get into the nitty gritty details. Remember they want you to pass. 60% of the people who take the test, pass.
So they will give points a to of times for the basic stuff. If you’re asked about photosynthesis, say photosynthesis it uses light. Sometimes they’ll give you a point just for mentioning things like that. Because, a lot of kids I’ve seen some essay questions, where 30 to 40% of the people don’t even attempt or answer. They want to give points for those really hard ones so start vomiting up anything that you just go DNA is important, without it you would die because it holds your genetic information. If that’s all you know about Genetic engineering, if they are asking some kind of Genetic engineering question, just saying DNA holds genetic information, they might give you a point for it. Go ahead state the obvious, can’t hurt.
Guess, again. They only give points for being right they don’t take away points for being wrong. If you are sitting there and you’re thing maybe this will work just toss it out there. As I tell my kids shot gun it or just vomit up all of the information that you think might apply. The one thing you need to be careful of yes they don’t take off points for being wrong unless you directly contradict yourself so be careful about that. Don’t say photosynthesis only happens during the day, photosynthesis only happens at night. Pick one.
One thing you can do is avoid absolutes on that photosynthesis one. If you say in stead of saying photosynthesis only happens during the day say, typically photosynthesis only happens during the day. That allows you to give yourself a little but of a cover to protect against any reader who happens to know nitty-gritty details that might say well what if such and such happened? Because there are some plants that do a weird form of photosynthesis where they actually do some portions of it during the night time.
Well that’s one reason to stay away from absolutes. Never ever use absolutes. Another reason to avoid these absolutes, like never and ever, is that, when you’re writing about something. Like for example, Protein Synthesis.
You’ll talk about how all Proteins are made out of the same 20 different amino aids. Well it turns about that there’s a few evolutionary weirdness out there, where they may use 21st amino acid.
Most teachers, they don’t even know about that. But there’s a few out there that have done their research on that. And if you write only 20 amino acids they would go, “You’ve not read my research paper? You’ve hurt my feelings, you get nothing.” On the other hand, if you say nearly all living creatures use the same 20 amino acids. They'll say nearly all? "You know my work I love you," and they’ll give you a point. Then another point for elaboration because you’re brilliant.
Invent enzymes; every molecular process is helped by enzymes so invent one. Use the end in –ase which means enzyme, and then slap in the name of whatever it is that you want to do in. You want to open up a Helix, call it Helicase. If you want to chop a bunny call it ARNase. A lot of times that winds up being the right answer. And even if it isn’t, guess what different scientist will call the exact same thing slightly different names, why? Because some guy’s over in France and he’s inventing his new name for something, while some guy in England is discovering the same thing and they both want to name it.
Well which name do you eventually use? It’s kind of open to debate and until the debate is settled, scientist will be using both names kind of synonymously. What will happen is that, you may stumble across on one of these more unusual versions of the name of the real enzyme, or you may trick the reader into thinking you’ve read a different textbook than he uses in his classroom. So he’s saying I know what he means by this that’s probably just one of those freaky little California versions of the enzyme.
Invent factors; a lot of molecular processes, whether it’s blood clotting, whether it’s RNA transcription, these are helped by molecules called factors. Why do they call them factors? Factors is Scientificis for something that’s important, but I may not know what it is.
With blood clot, scientists new that there's these things called Platelets which are involved in blood clotting. But even if you remove the Platelets, blood still has some ability to clot. So they said there must be these other factors or 'clotting factors'. Since then scientists have gone through, and they’ve discovered there’s a lot of different proteins, but they still call them clotting factors. So mention the process that you’re in the middle of doing and add in factor.
Whenever you’re trying to come up with any factor that can influence any process, mention Hydrogen bonds, mention Temperature, and the amount of something that’s important to that process. If you’re talking about photosynthesis, what can affect it? Temperature. You heat things up that adds more energy to the system, often will speed it up.
Mention Hydrogen bonds. Hydrogen bonds keep DNA together, Hydrogen bonds affect their shape and structure of proteins, Hydrogen bonds influence the chemical behaviors of water. Hydrogen bonds are a back up answer to pretty much anything. So guess you cant be wrong. An amount of something important, if you’re talking about why there might be more penguins on the beach during noon than at night? What’s important to a penguin? Fish maybe there’s more fish available at the beach during the day time because they’re feeding on the Algae that are doing photosynthesis during the day. Maybe it will work.
Another idea to come up with, to mention in the middle of a concept thing, if you have no idea, if they’re asking about questions about structure and function, mention the surface area to volume ration hypothesis. What that idea is, if you chop something up it exposes internal surfaces that allow materials to move in or out. So that’s why I chew food. If I have a big steak by chopping it up with my teeth, it gives more surfaces for my enzymes to digest that steak so I can digest it faster. This is why my ears get colder faster than say my torso. Because it has more surface are per milliliter of body than my torso does. So it allows rapid exchange of temperature.
If you’re talking about any kind of evolutionary thing, if you have no idea why did a particular adaptation come round, just say this adaptation allows more specialization and you may be right.
Now let’s take a look at the various kinds of questions that will appear on the essays. There’s two basic sorts. There are the concept questions and a then the specific AP biology lab based questions. Let’s go into the concept questions and here’s an example Cellular Transport is a key process in biology and then describe the different between the two kinds of Cellular Transport and then apply them. You’re going to see at least two to three of the questions in the four will be this kind of thing.
Now you need to know some basic Biology to be able to answer this obviously but notice there’s a broad diversity of kinds of knowledge that will allow you to attack this. If all you know about Cellular Transport is the difference in active and passive transport you can still get some points here. You may not know anything about Turgor Pressure and Nerve Signal Transmission or a transmission of Oxygen in the blood, but you can at least get some points here.
On the other hand if your teacher is been focusing mostly on human body systems, you can probably get some points here even if you don’t know that but go ahead and try here and try here. Again notice the answer pick two out of these three you’ve got to make sure you only pick two don’t just answer all three or else or just take the first two.
Let’s go back into the lab base questions and if we look at these like I said they’re based one the 12 official labs. If you check out your bonus materials you’ll find a link to an online version that takes you virtually through all 12 of the official labs. There’s usually at least one essay question based on the 12 official labs and also in your bonus material I’ve gone through since 1985 every AP biology test and I’ve identified the basic content covered on every essay question.
I’ve also identified which of the 12 labs has been on that test. Because if you think about it if they usually ask one essay question based on the 12 labs, but there’s 12 of them. If they ask say for example lab number one last year, they’re very unlikely to do lab number one this year. That will help you target in. Now that does not mean you should completely ignore lab number one, because the labs will also appear on the multiple choice questions. So be familiar with them.
In your bonus materials, with that break down, I’ve also identified my best predictions, my best guess as to what will be the one lab question that will be on the test. So you can really make sure you focus in on the ones that I think are most likely.
I will add however that recently they’ve been having one or two one of the version of the test they actually had three of the essay questions based on content from the labs. What happens with the 12 labs there’s one kind where they give you a bunch of data and you have too analyze it and then you discuss applications of it say for example they can show you a bunch of data and ask you to graph it. Then they’ll ask so when did the rate of change over time, when did that rate increase? Why did it level off here? Then they’ll say this process is involved in blah, blah, blah explain how this process is there?
The other version is design an experiment. A touch on how to maximize your score if you get the design experiment and something I will tell you, if you do get a design experiment be glad because there’s a bunch of things I’m going to tell you that will automatically earn points.
Let’s look at the data analysis a little bit more closely. You have to know that rate is change in some variable like change in temperature, change in product over or divided by change in time. If they give you data and it’s changeover time or whatever, make sure you show the formulas that you’re using to calculate rate and put in the units at every state because a lot of the way that the data analysis things are built is that they’ll give you a point for using the correct formula.
They’ll give you a point for correctly plugging in the number and they’ll give you point for using the correct units.
Let’s get down to labeling the graph axis. If you have to draw a graph, be glad because they give some easy points. They give points for correctly labeling the axis. So make sure though that you put in the correct scales. Figure out if my data range is from 0 to say 10; go 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, have a consistent scale. And then put in the units. If you don’t, a lot of times you’ll miss points for the graph.
Also, don’t connect data you don’t have. My students, at the beginning of the year of my class, a lot of them will lose points because say for example we’re doing an enzyme lab where we’re looking at the rate of an enzyme’s function at different temperatures. Say for example they have data for a 10 degrees Celsius, 20 degrees Celsius, 30 degrees Celsius, 40 degrees Celsius, 50 degrees Celsius. They’ll connect those dots and then, almost variably a bunch of them want to go from the 10, they want to start at the zero. Even though they may not havedone the zero degrees. Don’t do that if you connect to a data you don’t have with a solid line you’ll lose a point.
What if they say predict? Then use a dashed line or dash it and then put an arrow. If you’re predicting beyond the range you have, then using of the dash or the arrows indicates to the reader I’m extrapolating. I’m guessing. The solid line is used for connecting the dots between known data points.
If we look at the design of your experiment, again, be glad they gave you this you don’t always get lucky enough to get a design in an experiment lab question. What you do is, to get one point you say, my hypothesis is. And be as explicit, and I mean that by being very obvious. Be as explicit as possible say my hypothesis is.
It used to be that they would only give it to you if you said my hypothesis is, or if you had framed it in an if then statement.
I was sitting next to the chief reader of the AP Biology essays and we’re reading some sample essay questions and one person wrote. "If my hypothesis is right then I’ll get good results." That’s a crappy hypothesis; that person got a point. Somebody else had go on about because this is a photosynthesis essay question. Something along the lines of plants use light energy to form glucose, and as the light amount in the area increases, then the plant will be able to start getting more and more energy to produce the Glucose that has stored the energy, the chemical potential energy gunned from the light. I thought wow, this kid really knows her stuff. Good for her she gets the point. And the chief reader said well no it’s not an if-then statement and she did not directly my hypothesis is.
Be sure to state your hypothesis even if your hypothesis is wrong you’ll still get a point for doing it.
Identify a variable that you’re not manipulating that you’re going to hold constant. Remember, you don’t actually have to do this experiment. Imagine, somebody gave you 12 billion Dollars. Do whatever it is you could do with 12 billion Dollars. If I’m doing an enzyme lab, and I’m trying to figure out what happens as I add more and more substrate, then I will hold the Temperature constant. If I’m doing a growth experiment on plants, may be different amounts of light, I will make sure the humidity is constant. I will make sure the Temperature is constant. I will make sure the amount of wind is constant. I’ll hold something constant. If I’m doing stuff with people I’ll pick test subjects who are all the same age. If you do that you get a point.
That ties into identifying your control group versus your variable group. Say my control group is my comparison group, so I can see the effect of the variable that I’m implying to my variable group. If I go back to what influences the rate of growth of the plants, I will have one plant group that is in darkness. Another plant group that’s in 50% light, another group that’s in 100% light. My darkness group is my control. And then I can compare to these guys.
Repeat your trials. Again you don’t have to do this, so instead of saying I will use a plant, change the word a, to I will use 1000 plants. You don’t have to do it, just say. I’m going to use a large sample size and say I will repeat my experiment. You do that, you get a point.
Now if you have to come up with factors, almost in variably pH will influence almost anything. Temperature influences almost anything in science, in Biology. And concentration, concentration of Carbon dioxide in your blood, concentration of Carbon dioxide in the air, concentration of food, concentration of predators, amount of firestorms in the area. Whatever it is, concentration of something that is significant to the lab that they’re talking about.
Last I’m going to say is, make sure you put in your units when you’re predicting your data because they’ll ask you to do that. Put in the units and a lot of times that’ll get you a point.
That was a lot of ground to cover but I’m sure you’ll handle it. In your bonus materials, I’ve also given you some other does and don’t to use on the essay. Just go through, practice a few times. A lot of textbooks will have essay questions or short answer questions that will give you the opportunity to kind of practice and think through in your head, how would you do this if it was the AP exam?
Take a look at the 12 official labs like I recommended. Make sure you know enough to be able to say okay what would be an application of this concept, what sort of data should I expect, and how would I graph it? How would I go through it?
If you do all these steps, you’re really going to be able to bump up your score. And if you can score above a four on an essay, you’re doing well. If you can get to six, to eight you’re doing awesome. If you score a ten on one essay, that’s what most people have to do combining their score from two or maybe even three essays so good luck.
If you're taking AP Biology, it's a good idea to familiarize yourself with the exam before you get too far into the course. Preparing ahead of time for the format of the exam and fully understanding which concepts are covered can go a long way towards earning a high score (and potentially getting college credit).
This article will take you through the structure and scoring of the exam, plus give you some tips on the best ways to study for AP Biology!
How Is the AP Biology Exam Structured?
The AP Biology test has a multiple-choice section (that also includes grid-in questions, so it’s not purely multiple choice) and a free-response section.
The Multiple-Choice Section Is:
- 63 multiple-choice questions
- Six grid-in questions
- 90 minutes long
- Worth 50 percent of your score
Grid-in questions ask you to integrate mathematical and scientific skills to make calculations and then enter your answer into a grid on the answer sheet (essentially, these are short-response questions similar to grid-in questions on the math SAT).
The Free-Response Section Is:
- Six short-response questions
- Two long-response questions
- 90 minutes long (including a 10 minute reading period)
- Worth 50 percent of your score (25 percent for the short responses and 25 percent for the long responses)
Questions on Both Parts of the Exam Will Ask You To:
- Understand how graphical and mathematical models can be used to explain biological principles and concepts
- Make predictions and justify events based on biological principles
- Implement your knowledge of proper experimental design
- Interpret data
The AP Biology exam is 3 hours in total. In 2018, the test will take place on Monday, May 14th at 8 AM.
Is this coffee smiling at me? Or am I delirious from lack of sleep?
Content Background and Sample AP Biology Questions
The AP Biology test doesn't include a set number of questions dealing with each topic area, but you should note that the exam is centered around four major themes (or "Big Ideas" as the College Board prefers to call them) that run throughout the course. Here's a list of these four themes followed by the topics that fall beneath each of them:
Big Idea #1: The Process of Evolution Drives the Diversity and Unity of Life.
Topics that fall into this category include:
- Natural selection
- Mathematical modeling of populations
- Species classification
Big Idea #2: Biological Systems Utilize Free Energy and Molecular Building Blocks to Grow, to Reproduce and to Maintain Dynamic Homeostasis.
Topics that fall into this category include:
- Molecular biology
- Cell structure
- Cellular respiration
- Thermodynamics and homeostasis
- The immune response
Big Idea #3: Living systems store, retrieve, transmit and respond to information essential to life processes.
Topics that fall into this category include:
- The cell cycle (mitosis and meiosis)
- Communication between cells
- The endocrine system
- The nervous system
Big Idea #4: Biological systems interact, and these systems and their interactions possess complex properties.
Topics that fall into this category include:
- Plant structure
- The circulatory system
- The musculoskeletal system
Now that you have a basic content outline, here are some examples of the types of questions you'll see on the test so that you can get an even better idea of what to expect.
Here is an example of a multiple-choice AP Biology exam question:
This question sounds kind of complicated, but let’s break it down. The first sentence is background information that isn’t really necessary to answer the question besides the fact that it tells us we’re talking about sickle cell anemia. This is helpful if you remember basic facts about the disease that you can use to contextualize the question.
The main part of the question asks what will be affected when you replace a hydrophilic amino acid with a hydrophobic one on a hemoglobin protein. Based on your knowledge of sickle cell anemia and molecular properties, you should be able to eliminate choices B and C, which don’t have much to do with the abnormality described in the question. Choice D can also be eliminated because the internal secondary structure of the protein is not altered by the existence of the hydrophobic group. This would only affect how the molecule interacts externally with other hemoglobin molecules, as in choice A (the correct answer).
Here’s an example of a grid-in question that you might see on the AP Biology test:
This question just asks you to read a graph and perform some basic calculations. We can see from the graph that from day 3 to day 5, the population size grew from 200 to 900 individuals. This means it increased by 700 individuals in total. If we divide 700 by the time period of two days, that's a mean growth rate of 350 individuals per day. You would enter “350” into the grid for this question!
Bacteria gettin' it on
Short Free Response
Here’s an example of a short free-response question you might see on the test:
On this particular question, you could earn a maximum of four points (one for each type of data you describe in part a and one for the explanation for each in part b). Types of data and corresponding explanations you could cite for points include:
Data Description: The ability of the plants to produce viable seeds/offspring in nature.
Explanation: This is consistent with the definition of a biological species.
Data Description: Comparison of the two plants’ DNA sequences or structures of other conserved molecules.
Explanation: Sufficient similarity between the DNA structures would support the existence of a single species.
Data Description: Discovering the existence of fertile hybrid plant populations living between the two other populations of plants.
Explanation: This is also consistent with the definition of a biological species (again, ability to produce fertile offspring).
There must be jobs out there where you just have to collect plant samples. Start building your experience now by never showering.
Long Free Response
Here’s an example of a long free-response question you might see on the test:
On this question, you could earn up to ten points total.
Part A was worth 3 points. To earn these points, you had to:
- Create a graph that was correctly labeled, scaled, and used proper units.
- Make it a bar graph with correctly plotted sample means.
- Show the standard error (+/- 2) on your graph above and below the means.
- Identify populations I and III as the most likely to have statistically significant differences in the mean densities.
- Explain why this was the case (because the margins of error do not overlap for the mean densities of these two populations; 9+2 is less than 14-2).
- You would earn two points for identifying the independent variable (presence of herbivores) and dependent variable (trichome density).
- You would earn one point for identifying a control treatment (absence of herbivores).
- You would earn one point for identifying an appropriate duration of the experiment (more than one generation of plants).
- The final point would be earned by predicting experimental results that would support the hypothesis (higher trichome density under the experimental conditions as compared to the control conditions).
Ugh gross! This leaf is full of trichomes.
How Is the AP Biology Exam Scored?
As I mentioned, the multiple-choice section (including the grid-ins) makes up 50 percent of your score, and the free-response section makes up the other 50 percent. For the multiple-choice section, it’s easy to calculate your raw score. You get one point for each question you answer correctly. There are no point deductions for incorrect answers or answers that you leave blank. This is also true for the grid-in questions.
For the free-response section, which is scored by AP graders rather than by computer, it’s a bit more complicated. You’ll answer six short response questions that have different point values depending on their complexity. Three of the short response questions are scored out of three points. The other three are scored out of four points. Each long free-response question is scored on a ten-point rubric.To figure out your final score, you’ll need to do a couple more calculations. This can change from year to year based on the performance of students, but this is the most recent estimate I have of the methodology:
- Multiply the number of points you got on the multiple-choice section by 1.03
- Multiply the number of points you got on the two long free-response questions by 1.5
- Multiply the number of points you got on the short free-response questions by 1.43
- Add all of these numbers together to get your raw score
Here is a conversion chart so you can see how raw score ranges translate into final AP scores. I've also included the percentage of students who earned each score in 2016 to give you an idea of what the score distribution looks like:
Percentage of Students Earning Each Score (2016)
For example, if you earned 40 points on the multiple-choice section, 13 points on the long response questions, and 14 points on the short response questions, your score would be (40*1.03) + (13*1.5) + (14*1.43) = 80.72. This indicates that you would earn a 4 on the real AP Biology test.
If you want to spice things up a little bit, you can even do the math on a snazzy calculator with red buttons! Isn't this fun?!?!?
What’s the Best Way to Prep for the AP Biology Exam?
Now that you know all about what's on the AP Biology test, it's time to learn how to ace it. Follow these four tips to end up with a great score.
Tip #1: Review Your Labs
Labs make up about 25 percent of the AP Biology course, and for good reason. It’s important to understand how labs are conducted and how the principles behind them relate to the main ideas of the course. This will help in answering both free-response and multiple-choice questions that deal with lab scenarios on the test.
Many free-response questions ask you to identify the components of a proposed experiment (dependent and independent variables) or design a lab to test a certain hypothesis. You might have forgotten about the labs you did towards the beginning of the year, so take extra care to go over them. Make sure you understand exactly how they were conducted and what the results mean.
Tip #2: Learn to Connect Small-Scale Terms with Large-Scale Themes
The AP Biology test covers four major themes:
- Energy use in biological systems
- Processing of stimuli in biological systems
- Interaction of biological systems
Under each of these umbrella topics, there are many terms and ideas that you'll need to review. Memorization can be a big part of studying for AP Biology. However, memorizing the definitions of terms will only get you so far. You'll also need to understand how they relate to each other and to the four themes listed above.
The exam emphasizes making connections between biological terms, corresponding biological systems, inputs and outputs of these systems, and the overall impact on living organisms and the environment. You should be able to follow a chain of reasoning from the specific to the broad, and vice versa.
If this tree is AP Biology, the four big branches are the four themes, and all the smaller offshoots are different terms and concepts. For it to survive, there has to be a lot of communication between the trunk and the rest of the tree!
Tip #3: Practice Eliminating Irrelevant Information
Both multiple-choice and free-response AP Biology questions include lots of scientific terminology and visual aids. This test format might be intimidating if you’re not used to it. It’s important to practice sorting through this jumble of information so that you can quickly get to the root of the question rather than obsessing over small details you don’t understand. Try underlining important words and phrases in the question to stay focused on the main points and avoid misleading distractions.
You should also practice responding to free-response questions in a straightforward way without any unnecessary fluff. Remember, this isn’t an English test; the graders are just looking for clear facts and analysis. Make it easy for them to give you points!
Tip #4: Learn Good Time Management
The AP Bio exam is pretty long (even for an AP test), and many of the questions require quite a bit of thought. You need to make sure that you have a good handle on time management before exam day. The best way to do this is to take multiple practice tests.
There are 69 questions total in the multiple-choice section, and you have 90 minutes to answer them. This comes out to about one minute and 15 seconds for each question. Based on that fact, you should spend no more than a minute on each multiple-choice question the first time you go through the test. If you find yourself spending extra time on a question, skip it and come back to it later. It’s best to give yourself some leeway in case you run into trouble on the grid-in questions.
You also have 90 minutes for the free-response section, but you'll spend different amounts of time on the long and short questions. Limit your time on the long questions to 22 minutes each or less (44 minutes total) and your time on the short questions to 6 minutes each or less. If you can’t work this fast right away, you should do additional practice free-response questions until you feel comfortable with the time constraints.
Really get to know the test. Take it on a romantic getaway, and watch the sunset with it. Deep down, the AP Biology exam just wants to be understood.
The AP Biology exam is three hours long, with two sections that take up an hour and a half each. The multiple-choice (and grid-in) section has 69 questions total, and the free-response section has eight questions total.
The content of the exam spans four major themes or "Big Ideas" that are central to the course. These include evolution, energy use within biological systems, the processing of stimuli within biological systems, and interactions that occur between biological systems on a larger scale in nature.
Questions ask you to connect specific terms and concepts to these central topics. They will test your ability to interpret data, make predictions and inferences based on biological evidence, and analyze different experimental scenarios. It's a tough test, but if you study hard and know what to expect, you're perfectly capable of a great score!
If any of your prospective colleges require Subject Test scores, you might take the Biology SAT Subject Test in addition to the AP Biology test. Read this article to learn more about the differences between AP tests and Subject Tests and which ones matter the most.
Are you still planning out your schedule? Find out how many AP classes you should take in high school based on your college goals.
The difficulty level of different AP classes might play a role in your decision whether or not to take them. Check out these articles for more on which AP classes are the hardest and which are the easiest.
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