The TEAS test Science section is the part most nursing applicants worry about, and the data backs that fear up. Across the four academic areas measured by the ATI TEAS, Science is where the average national score sits the lowest, often hovering in the high 50s and low 60s on a percentage scale.
If you are sitting the test for the first time, you have 63 minutes to finish 50 science questions, which gives you a touch over a minute per item. That sounds generous until you encounter a passage on the cardiovascular system asking you to label vessels, then a chemistry stoichiometry calculation in the very next question.
The good news? Science is also the section where structured study pays off the most. Unlike Reading, where comprehension speed is partly innate, science is content-driven. You can memorize body systems, drill the periodic table basics, and learn to read experimental design questions like a checklist. Students who put in 30 to 40 focused hours in this section often lift their Science subscore by 15 to 25 percentage points, which can be the difference between an admission offer and the waitlist.
This guide walks you through the full section breakdown, the high-yield topics nursing schools look at, the resources that work (and a couple that waste your time), and a study plan you can actually run in either four weeks or eight. By the end you will know exactly where to spend your prep hours, what to drill in your last 72 hours, and how to avoid the mistakes that send candidates back for an expensive retake.
One quick reality check before you dive in: the TEAS is not a knowledge test in the way a college final is. It is a predictor of how you will perform in nursing school. The science questions are deliberately calibrated against the topics you will see in Anatomy and Physiology I, microbiology, and pharmacology. That is why nursing programs care so much about your subscore. Treating this section as a content audit (not a memory test) will quietly shift how you prepare and lift your final score.
The 50 scored science items are not spread evenly. ATI splits the section into four content sub-areas, and the weighting tells you exactly where to invest study time. Roughly 18 questions test Human Anatomy and Physiology, which is by far the largest bucket. Then comes Scientific Reasoning with about 15 questions, Biology with 9, and Chemistry rounds out the section with around 8. There are also a handful of unscored pilot items mixed in, but you cannot tell which is which during the exam.
If you only have time to master one area, make it anatomy and physiology. Eighteen out of fifty is 36 percent of the score, and the content is highly predictable: the major body systems show up every single test form. Nursing schools also weigh this knowledge heavily because it maps directly onto first-semester coursework like A&P I.
Scientific Reasoning is the second largest area but the easiest to underestimate. These questions ask you to interpret data, identify variables, evaluate hypotheses, and recognize the steps of the scientific method. There is almost no memorization involved — it is logic and graph reading. Many test-takers ignore this section, then lose 8 to 10 easy points on test day. Don't.
Biology and Chemistry round things out. Biology focuses on cell structure, genetics, macromolecules, and basic taxonomy. Chemistry sticks to the periodic table, chemical bonding, acids and bases, and balancing simple equations. You will not see organic chemistry mechanisms or advanced physics.
Competitive ADN and BSN programs typically require a 70% composite TEAS score (the Proficient level), but stronger schools look for 78% or higher (Advanced). Your Science subscore is published separately on the report, and many programs set a minimum Science subscore of 65% even when the composite is above 70%. Always check the specific cutoff at every school on your application list.
It helps to picture each sub-area as its own mini-test with its own logic. The questions are mixed throughout the 63-minute block, so you will jump from a question about meiosis to one on osmosis to one on identifying the dependent variable, all inside three minutes. Mental flexibility matters here. Below is a structured look at what each sub-area expects from you, the topics that come up most often, and the type of question stem you should be ready for.
One important note about how ATI writes these items: very few questions are pure recall. Most ask you to apply a concept to a scenario. Instead of asking "what is the function of red blood cells", you might get a paragraph about a patient with anemia and be asked which lab value would be lowest. Studying with flashcards alone is not enough. You need practice questions to bridge from definition to application.
The cards below summarize each sub-area, the typical question count, and a fast snapshot of what to drill. Print this out and pin it next to your study desk if that helps you stay focused on the right material.
All eleven body systems are testable. The cardiovascular, respiratory, nervous, muscular, skeletal, digestive, and endocrine systems appear most often. Know each system's main structures, primary functions, and one or two common pathologies. Expect questions that pair anatomy knowledge with patient scenarios rather than pure recall.
Tests independent versus dependent variables, control groups, hypothesis evaluation, data table reading, graph interpretation, and the steps of the scientific method. Almost pure logic with no memorization. Easy points if you practice with sample data sets and learn to scan graphs methodically before answering.
Cell organelles and their functions, mitosis versus meiosis, DNA structure and replication, basic genetics with monohybrid and dihybrid Punnett squares, the four macromolecules (carbohydrates, lipids, proteins, nucleic acids), and the basics of taxonomy and classification.
Periodic table groups, atomic structure (protons, neutrons, electrons, atomic number, mass number), ionic versus covalent bonds, balancing chemical equations, the pH scale, acids and bases, plus states of matter and the names of phase change transitions.
After analyzing hundreds of student score reports, certain topics appear on nearly every TEAS form. If you only have a few days left before your test date, drill these first. The cardiovascular system is essentially guaranteed — expect two to three questions on blood flow through the heart, the function of the four chambers, or which vessel carries oxygenated versus deoxygenated blood. The respiratory system is right behind it, usually with a question on gas exchange at the alveoli or the path of air from nose to lungs.
In biology, cell structure questions are everywhere. Know your organelles cold: nucleus, mitochondria, ribosomes, endoplasmic reticulum, Golgi apparatus, lysosomes, and the differences between plant and animal cells. Punnett squares come up in about half of tests, almost always with a monohybrid cross and the classic 3:1 or 1:2:1 ratios.
Chemistry is narrower than you expect. The periodic table appears two or three times per form. You will be asked about atomic number, mass number, ions, or how to identify a metal versus a nonmetal. Acids and bases come up with the pH scale (0 to 14, with 7 as neutral) and you should remember that a lower pH means more hydrogen ions.
The scientific method is so common it deserves its own evening of prep. Memorize the order: observation, question, hypothesis, experiment, analysis, conclusion. Then practice spotting the independent variable (what you change) versus the dependent variable (what you measure).
Resource overload is real. Walk into any nursing forum and you will find threads recommending fifteen different study books, six apps, and three subscription services. You only need two or three resources, and you need to use them properly.
The ATI TEAS Study Manual is the most expensive option at around $69, but it is written by the test makers themselves. The content alignment is unmatched, and the practice questions feel almost identical in tone to the real exam. The downside is the explanations are thin. If you get a question wrong, the manual rarely tells you why in detail. Use it for content review and pair it with another resource for deep explanations.
McGraw-Hill Education 5 TEAS Practice Tests is the best secondary resource. It is cheap (around $20), the explanations are thorough, and you get five full-length tests to build stamina. Many students do all five of these tests in their final two weeks and see significant score gains on test day.
Mometrix TEAS Secrets sits in the middle. The strategies are solid, especially for scientific reasoning, but some of the content review skims topics that show up heavily on the real test. It is a good supplement, not a primary resource.
Skip Quizlet flashcard decks made by random users — the content is often wrong or outdated. Stick to official ATI materials, McGraw-Hill, and free practice tests from accredited prep sites for your daily drills.
Your study plan depends on your starting point. If you took A&P recently and feel comfortable with the basics, a 4-week sprint will get you to a solid Science subscore. If your last biology class was high school or it has been years since you cracked a chemistry book, give yourself 8 weeks. Cramming science content in under three weeks is the single most common reason nursing applicants need to retake the TEAS.
The 4-week plan assumes 12 to 15 hours of study per week, with at least three of those hours being timed practice questions. The 8-week plan brings it down to 7 to 9 hours per week, more sustainable for working students or parents. Both plans front-load content review, then shift to practice questions and full-length mock tests in the final stretch.
A critical rule: review your wrong answers more carefully than you study new material. Every missed question is a free lesson about a topic ATI has flagged as testable. Keep an error log — a simple notebook works — and write down the question topic, why you missed it, and the correct concept. Reread that log every Sunday. Students who do this gain roughly 10 extra percentage points on their final practice test compared to those who just take new tests over and over.
Use the checklist below to track your progress against the recommended weekly milestones.
The same six or seven errors come up in every postmortem we read from students who missed their target score. The number one mistake is over-studying anatomy at the expense of everything else. Yes, anatomy is the biggest bucket, but you cannot ace it past about 90 percent — the law of diminishing returns kicks in hard. Meanwhile a candidate ignoring scientific reasoning leaves easy points on the table. Balance your prep across all four sub-areas.
The second mistake is studying passively. Reading a study manual is comfortable but it does not build the retrieval skill the test demands. You need to be actively answering questions from day one, not three weeks in. Aim for at least 25 practice questions per study day, even during content review weeks.
The third mistake is ignoring time pressure. Untimed practice feels reassuring but 63 minutes for 50 questions is genuinely tight if you get bogged down. Start using a timer by week two of any plan. If you cannot finish a 50-question set in 63 minutes with two minutes to spare, you have a pacing problem to fix.
Other common errors: skipping the chemistry chapter entirely, memorizing without understanding (e.g. knowing "mitochondria is the powerhouse" but not what ATP does), and never doing a full-length mixed test until exam day. Take at least two timed, mixed-content tests in your final two weeks. Test stamina is a separate skill from content mastery, and Science is the section where mental fatigue hits hardest because every question requires fresh content retrieval rather than passage reading.
One last trap to avoid: do not change your morning routine on test day. If you normally have coffee, have your coffee. If you never eat breakfast, do not force a heavy meal. A surprising number of students bomb the Science section because their digestive system is busy reacting to an unfamiliar protein shake. Sleep is a different story — eight hours is non-negotiable.
Different programs weight the TEAS differently. Some treat it as one component of a holistic file alongside GPA, prerequisite grades, and personal statements. Others use a formula where the TEAS composite carries 25 to 40 percent of the admissions decision. A growing number of programs publish minimum subscore thresholds, and Science is often the most scrutinized one because of its direct overlap with first-semester nursing coursework.
For example, several large state-school BSN programs require a minimum 65% Science subscore even if your composite is above 70%. Drop below the Science threshold and your application moves to the conditional or rejected pile, even with a strong overall TEAS. This is why it is risky to bank everything on a high Reading or English Language Usage subscore to carry your composite — admissions committees see right through that imbalance.
If you can target an 80% Science subscore, you significantly broaden your application options. That score puts you in the Advanced category and signals to admissions teams that you will not struggle in A&P I or microbiology, two of the most common first-year nursing courses. Students with a Science subscore above 80% also report fewer remediation requirements in their first semester.
Bottom line: investing extra hours in TEAS Science pays dividends well past test day. The students who push their Science subscore from 65 to 80 percent often credit that single jump with getting them off a waitlist and into a program. They also say that the time spent mastering anatomy, biology, and chemistry concepts gave them a comfortable head start in first-semester lectures, which freed them up to focus on the clinical skills that are harder to self-teach.
The TEAS Science section rewards structured, balanced preparation. Start with the section that carries the most weight (anatomy and physiology), but do not ignore scientific reasoning — those 15 questions are arguably the easiest points in the whole test once you understand how variables and controls work. Bring in a chemistry refresher early in your study block so you have time to revisit periodic table basics and balancing equations.
Use the ATI TEAS Study Manual as your primary content reference, McGraw-Hill 5 Practice Tests for question volume, and free online quizzes for daily warm-ups. Take at least two full-length timed practice tests in your final fortnight. Keep an error log and review it every week. Sleep, hydrate, and eat a normal breakfast on test day — cognitive performance tanks fast under sleep deprivation, regardless of how much content you crammed.
If you are pacing yourself toward an Advanced score (78%+), expect to put in 35 to 45 total prep hours on Science alone. If you are aiming for Proficient (70%), 20 to 25 hours of focused work usually does it — assuming you actually do the practice questions and not just the reading. The students who succeed are not the ones who study the longest. They are the ones who study deliberately and review their mistakes. Go get that score.