240's TX PACT: Physics: Grades 7–12 Study Guide Is 85% Test-Aligned

240's TX PACT: Physics: Grades 7–12 study guide is built around the official exam framework so you can study what is actually tested. This page shows exactly how the guide maps to the real exam — SMR by SMR and competency by competency — so you can see where coverage is strongest, where some depth gaps remain, and how each part of the guide supports your prep.

85%
test-aligned
53
Fully covered
14
Partially covered
4
Coverage gap
Based on a competency-by-competency review of the official framework and the lessons, practice questions, flashcards, videos, and study materials included in this guide.
1149
Practice Questions
492
Flashcards
143
Study Materials
12
Videos

Why Test Alignment Matters for Your TX PACT: Physics: Grades 7–12 Study Guide

Certification test standards are broad, but the exam questions are very specific. Our team of curriculum experts uses the 240 Study Guide Creation Process to ensure the most aligned, specific content for your TX PACT: Physics: Grades 7–12 (739) test — so you are not wasting time on broad subject review that may not show up on exam day.

Why 240 Is the Best Choice for the TX-PACT 739 Study Guide
  • Built around the official exam framework
  • Organized by the competencies actually used on the exam
  • Shows exactly what is covered and where depth is partial
  • Includes aligned questions, flashcards, study materials, and videos
  • Helps candidates study what is actually tested instead of broad generic content
Transparent coverage is a strength. We show where the guide is strong, where depth is partial, and where a gap has been identified so you can make an informed study decision.

How to Read This Alignment Review

5 domains · 71 competencies reviewed · 85% test-aligned
Covered— competency is comprehensively supported by the guide
Partially covered— core content is covered, but some depth gaps remain
Coverage gap identified— a content gap has been identified
This study guide is based on the current official exam framework
We review and update alignment whenever the official framework changes so candidates are always studying current, accurate material.
NATURE OF SCIENCE (DOMAIN I) Partially covered
SMR I.0001 Understand principles and procedures of scientific inquiry.
210 Qs24 Materials107 Cards4 VideosCovered
Official CompetencyMatching 240 TopicsAlignmentQsMatsCardsVidsNotes
A. Demonstrate knowledge of principles and procedures for designing and carrying out scientific investigations (e.g., generating and testing hypotheses). S.Repeatability; S.Scientific Method; S.Background Research; S.Experimental Investigations; S.Non-Experimental Investigations - Field Studies; S.Scientific Lab Techniques Covered 70 6 29 2 Covered by 6 topics (70 questions, 6 materials, 29 cards, 2 videos).
B. Recognize methods and criteria for collecting, measuring, organizing, analyzing, and presenting scientific data. S.Best Chart for the Data; S.Read Scientific Publication; S.Proper Data Analysis; S.Trend Analysis of Scatterplots Covered 28 4 15 0 Covered by 4 topics (28 questions, 4 materials, 15 cards, 0 videos).
C. Justify conclusions based on data analysis. S.Proper Data Analysis; S.Trend Analysis of Scatterplots; S.Limits of Science; S.Trend Analysis in Data - Natural Systems; S.Data Analysis of Slopes Covered 19 4 14 0 Covered by 5 topics (19 questions, 4 materials, 14 cards, 0 videos).
D. Demonstrate knowledge of safety procedures and hazards associated with physics investigations and the equipment and technology used in physics. S.Safety Rules; S.Emergency Procedures; S.Safety Icons; S.Maintaining Equipment; S.Proper Tool Use; S.Various Tools; S.Choose Appropriate Equipment - Advanced Covered 56 7 52 0 Covered by 7 topics (56 questions, 7 materials, 52 cards, 0 videos).
E. Apply appropriate mathematical procedures, including estimation, order of magnitude, statistics, and data analysis to solving problems in physics. S.Precision vs Accuracy; S.Error In Measurements; S.Trend Analysis of Scatterplots; S.Trend Analysis in Data - Natural Systems; S.Measures of Center and Range; M.Exponential and Scientific Notation; S.Significant Figures Covered 52 7 22 2 Covered by 7 topics (52 questions, 7 materials, 22 cards, 2 videos).
SMR I.0002 Understand the history of science, its connections with other sciences, and the relationships among science, technology, and society.
204 Qs19 Materials93 Cards1 VideosPartially covered
Official CompetencyMatching 240 TopicsAlignmentQsMatsCardsVidsNotes
A. Demonstrate knowledge of the historical development of major scientific ideas, the contributions of eminent scientists, and the uses and limitations of models. S.Key History of Science; S.Famous Experiments Covered 23 2 60 0 Covered by 2 topics (23 questions, 2 materials, 60 cards, 0 videos).
B. Demonstrate knowledge of current major theories, models, and concepts in chemistry, biology, and Earth and space science. S.Key History of Science Covered 18 1 60 0 Covered by 1 topic (18 questions, 1 materials, 60 cards, 0 videos).
C. Identify unifying themes, principles, and relationships that connect physics with the different branches of the sciences. S.Evidence, Models, and Explanation; S.Models; S.Properties of Systems; S.Change In Systems; S.Form and Function; S.Change, Constancy, and Measurements; S.Variety of Methods Across Science Covered 78 7 18 0 Covered by 7 topics (78 questions, 7 materials, 18 cards, 0 videos).
D. Analyze the interrelationships between physics, technology, engineering, and society and how science and technology affect each other. None Coverage gap identified 0 0 0 0 No matching topic found in the study guide.
E. Demonstrate scientific literacy by critiquing the coverage of science in the media. S.Ethics and Publishing; S.Decision Making Covered 10 2 2 0 Covered by 2 topics (10 questions, 2 materials, 2 cards, 0 videos).
F. Analyze social, ethical, and economic issues associated with technological and scientific developments. S.Interdisciplinary Connections; S.Decision Making; S.Careers in Science; S.Ethics; S.Ethics and Regulation; S.Healthy and Unhealthy Lifestyles; S.Human Populations Impact the Earth; S.Renewable vs Nonrenewable; S.Types of Power Sources Covered 103 9 14 1 Covered by 9 topics (103 questions, 9 materials, 14 cards, 1 videos).
MECHANICS (DOMAIN II) Partially covered
SMR II.0003 Understand motion in one and two dimensions.
68 Qs7 Materials22 Cards2 VideosPartially covered
Official CompetencyMatching 240 TopicsAlignmentQsMatsCardsVidsNotes
A. Use multiple representations (e.g., pictures, graphs, motion maps) to analyze the one-dimensional motion of a particle or an object. S.Motion Terms; S.Motion Graphs Covered 38 2 11 2 Covered by 2 topics (38 questions, 2 materials, 11 cards, 2 videos).
B. Solve problems involving constant acceleration. S.Linear Motion Calculations Partially covered 6 1 0 0 Partial coverage by 1 topic (6 questions, 1 materials, 0 cards, 0 videos); limited supporting content.
C. Apply properties of vectors to describe and analyze motion in two dimensions, including uniform circular motion and projectile motion. M.Vectors and Scalars; S.Projectile Motion; S.Circular and Rotary Motion Covered 17 3 9 0 Covered by 3 topics (17 questions, 3 materials, 9 cards, 0 videos).
D. Solve problems involving motion in two dimensions, including uniform circular motion and projectile motion. S.Projectile Motion; S.Circular and Rotary Motion; S.Centripetal Force Covered 19 3 5 0 Covered by 3 topics (19 questions, 3 materials, 5 cards, 0 videos).
SMR II.0004 Understand forces as interactions and their effects on motion.
92 Qs12 Materials26 Cards1 VideosPartially covered
Official CompetencyMatching 240 TopicsAlignmentQsMatsCardsVidsNotes
A. Identify characteristics of Newton's laws in a variety of situations. S.Force and Newton's Laws; S.Newton's First Law; S.Newton's Second Law; S.Newton's Third Law Covered 43 4 13 1 Covered by 4 topics (43 questions, 4 materials, 13 cards, 1 videos).
B. Analyze free body diagrams. S.Force Vectors and Diagrams Covered 10 1 3 0 Covered by 1 topic (10 questions, 1 materials, 3 cards, 0 videos).
C. Use Newton's laws to solve problems involving force and motion, including problems involving gravitational, frictional, and elastic forces. S.Gravity Advanced; S.Newton's Second Law; S.Newton's Third Law; S.Gravity; S.Newton's Laws Applied - Friction Covered 38 5 7 0 Covered by 5 topics (38 questions, 5 materials, 7 cards, 0 videos).
D. Solve problems involving uniform circular motion, including satellite and planetary motion. S.Circular and Rotary Motion; S.Gravity Applied Covered 8 2 0 0 Covered by 2 topics (8 questions, 2 materials, 0 cards, 0 videos).
E. Apply Newton's laws to solve problems involving systems of particles and the statics and dynamics of fluids. S.Fluids - Motion Laws; S.Center of Mass Partially covered 3 2 6 0 Partial coverage by 2 topics (3 questions, 2 materials, 6 cards, 0 videos); limited supporting content.
SMR II.0005 Understand the conservation of energy and linear momentum.
38 Qs4 Materials21 Cards0 VideosPartially covered
Official CompetencyMatching 240 TopicsAlignmentQsMatsCardsVidsNotes
A. Apply principles of work, potential energy, kinetic energy, and power to solve problems. S.Conservation of Energy Calculations; S.Applications of Conservation of Energy; S.Work, Energy, Power - Calculations Covered 24 3 16 0 Covered by 3 topics (24 questions, 3 materials, 16 cards, 0 videos).
B. Apply the work-energy theorem to conservative and nonconservative systems. S.Work-energy Theorem Partially covered 0 0 0 0 Partial coverage by 1 topic (0 questions, 0 materials, 0 cards, 0 videos); limited supporting content.
C. Analyze the relationships among force, impulse, and momentum. S.Momentum Covered 14 1 5 0 Covered by 1 topic (14 questions, 1 materials, 5 cards, 0 videos).
D. Solve problems involving elastic and inelastic collisions in one and two dimensions. S.Applications of Conservation of Energy Covered 8 1 12 0 Covered by 1 topic (8 questions, 1 materials, 12 cards, 0 videos).
SMR II.0006 Understand simple harmonic motion and rotational dynamics.
30 Qs6 Materials16 Cards0 VideosPartially covered
Official CompetencyMatching 240 TopicsAlignmentQsMatsCardsVidsNotes
A. Use graphs and trigonometric functions to analyze characteristics of simple harmonic motion, such as amplitude, restoring force, frequency, and period. S.Periodic Motion Covered 3 1 10 0 Covered by 1 topic (3 questions, 1 materials, 10 cards, 0 videos).
B. Analyze the characteristics of kinetic and potential energy for an object undergoing simple harmonic motion. S.Newton's Laws Applied - Pendulums; S.Newton's Laws Applied - Springs Covered 8 2 0 0 Covered by 2 topics (8 questions, 2 materials, 0 cards, 0 videos).
C. Solve problems in rotational kinematics. S.Circular and Rotary Motion Partially covered 4 1 0 0 Partial coverage by 1 topic (4 questions, 1 materials, 0 cards, 0 videos); limited supporting content.
D. Solve static and dynamic problems involving torques and forces. S.Torque Partially covered 1 1 1 0 Partial coverage by 1 topic (1 questions, 1 materials, 1 cards, 0 videos); limited supporting content.
E. Analyze systems involving rotational energy and angular momentum. S.Momentum Covered 14 1 5 0 Covered by 1 topic (14 questions, 1 materials, 5 cards, 0 videos).
ELECTRICITY AND MAGNETISM (DOMAIN III) Partially covered
SMR III.0007 Understand properties of the electric field.
43 Qs6 Materials18 Cards0 VideosPartially covered
Official CompetencyMatching 240 TopicsAlignmentQsMatsCardsVidsNotes
A. Analyze phenomena related to static electricity, such as the behavior of electroscopes, induced molecular polarization, and charging by induction. S.Electricity and Magnetism; S.Electrical Charges; S.Electrostatic Examples Covered 26 3 15 0 Covered by 3 topics (26 questions, 3 materials, 15 cards, 0 videos).
B. Describe electric forces and electric fields for various simple charge distributions. S.Electromagnetic Forces; S.Electrostatic Forces; S.Electrostatic Fields & Potentials Covered 17 3 3 0 Covered by 3 topics (17 questions, 3 materials, 3 cards, 0 videos).
C. Describe the motion of a charged particle in a constant electric field. S.Electrostatic Fields & Potentials Partially covered 3 1 0 0 Partial coverage by 1 topic (3 questions, 1 materials, 0 cards, 0 videos); limited supporting content.
D. Demonstrate knowledge of electric potential energy and potential difference. None Coverage gap identified 0 0 0 0 No matching topic found in the study guide.
SMR III.0008 Understand properties of the magnetic field and electromagnetic induction.
44 Qs8 Materials19 Cards0 VideosPartially covered
Official CompetencyMatching 240 TopicsAlignmentQsMatsCardsVidsNotes
A. Demonstrate knowledge of the properties of magnets. S.Electromagnets; S.Magnetic Materials; S.Magnetic Forces and Fields Covered 24 3 11 0 Covered by 3 topics (24 questions, 3 materials, 11 cards, 0 videos).
B. Analyze the magnetic force on a moving charge in a magnetic field. S.Calculating Magnetic Force on Charges Partially covered 2 1 0 0 Partial coverage by 1 topic (2 questions, 1 materials, 0 cards, 0 videos); limited supporting content.
C. Analyze the magnetic field for a current-carrying wire loop or solenoid. S.Electromagnets; S.Calculating Magnetic Field from Current Covered 10 2 6 0 Covered by 2 topics (10 questions, 2 materials, 6 cards, 0 videos).
D. Apply Faraday's and Lenz's laws of induction to find the direction of an induced emf or current in a conducting loop. S.Electromagnetic Induction Partially covered 7 1 1 0 Partial coverage by 1 topic (7 questions, 1 materials, 1 cards, 0 videos); limited supporting content.
E. Describe the operation of devices such as electric motors, generators, and transformers S.Types of Voltage Sources; S.Transformers Covered 9 2 10 0 Covered by 2 topics (9 questions, 2 materials, 10 cards, 0 videos).
SMR III.0009 Understand properties of electric circuits.
58 Qs9 Materials24 Cards0 VideosPartially covered
Official CompetencyMatching 240 TopicsAlignmentQsMatsCardsVidsNotes
A. Demonstrate knowledge of electromotive force, electric current, resistance, and Ohm's law. S.Types of Voltage Sources; S.Resistance and Resistivity; S.Currents - DC vs AC; S.EMF; S.Ohms law; S.Current and Coulombs Covered 27 6 15 0 Covered by 6 topics (27 questions, 6 materials, 15 cards, 0 videos).
B. Describe characteristics of parallel and series circuits. S.Circuits; S.Series and Parallel Covered 26 2 11 0 Covered by 2 topics (26 questions, 2 materials, 11 cards, 0 videos).
C. Solve problems using Kirchhoff's laws for circuits. None Coverage gap identified 0 0 0 0 No matching topic found in the study guide.
D. Analyze an electric circuit or component in terms of energy or power. S.Power Partially covered 5 1 1 0 Partial coverage by 1 topic (5 questions, 1 materials, 1 cards, 0 videos); limited supporting content.
WAVES (DOMAIN IV) Partially covered
SMR IV.0010 Understand the fundamental properties of waves.
122 Qs13 Materials63 Cards0 VideosPartially covered
Official CompetencyMatching 240 TopicsAlignmentQsMatsCardsVidsNotes
A. Demonstrate knowledge of the characteristics and types of waves. S.Properties of Waves; S.Sound; S.Light Covered 57 3 26 0 Covered by 3 topics (57 questions, 3 materials, 26 cards, 0 videos).
B. Demonstrate knowledge of wave propagation and how waves transfer energy and momentum. S.Properties of Waves Covered 18 1 13 0 Covered by 1 topic (18 questions, 1 materials, 13 cards, 0 videos).
C. Describe factors that affect the speed of a wave in different media. None Coverage gap identified 0 0 0 0 No matching topic found in the study guide.
D. Solve problems involving wave speed, frequency, and wavelength. S.Properties of Waves Covered 18 1 13 0 Covered by 1 topic (18 questions, 1 materials, 13 cards, 0 videos).
E. Analyze the reflection, refraction, and polarization of waves. S.Reflection and Refraction; S.Refraction Indexes; S.Fiber Optics; S.Interference, scattering, and polarization Covered 30 4 18 0 Covered by 4 topics (30 questions, 4 materials, 18 cards, 0 videos).
F. Apply the superposition principle to analyze wave phenomena. S.Interference, scattering, and polarization; S.Light Interference Patterns Covered 9 2 18 0 Covered by 2 topics (9 questions, 2 materials, 18 cards, 0 videos).
G. Demonstrate knowledge of the Doppler effect. S.Doppler Effect Covered 11 1 1 0 Covered by 1 topic (11 questions, 1 materials, 1 cards, 0 videos).
H. Demonstrate knowledge of the relationships between a sound wave and the human perception of sound. S.Sound Covered 32 1 9 0 Covered by 1 topic (32 questions, 1 materials, 9 cards, 0 videos).
I. Solve problems involving standing waves, resonance, and sounds produced by waves on a string or in a pipe, given various boundary conditions. S.Resonance; S.Applications of Waves - Harmonics; S.Applications of Waves - Harmonics Calculations Covered 18 3 11 0 Covered by 3 topics (18 questions, 3 materials, 11 cards, 0 videos).
J. Solve problems involving the intensity of sound and the decibel scale. M.Logarithmic Phenomena Partially covered 4 1 2 0 Partial coverage by 1 topic (4 questions, 1 materials, 2 cards, 0 videos); limited supporting content.
SMR IV.0011 Understand the characteristics of light and electromagnetic radiation.
56 Qs12 Materials54 Cards0 VideosPartially covered
Official CompetencyMatching 240 TopicsAlignmentQsMatsCardsVidsNotes
A. Demonstrate knowledge of the electromagnetic spectrum and the production and transmission of electromagnetic waves. S.Electromagnetic Spectrum; S.Electromagnetic Waves Covered 11 2 2 0 Covered by 2 topics (11 questions, 2 materials, 2 cards, 0 videos).
B. Apply the ray model of light and the thin lens equation to analyze characteristics of lenses and mirrors. S.Mirrors; S.Lenses Covered 11 2 11 0 Covered by 2 topics (11 questions, 2 materials, 11 cards, 0 videos).
C. Solve problems using Snell's law in various situations. S.Refraction Indexes - Snells Law Calculations Partially covered 0 1 2 0 Partial coverage by 1 topic (0 questions, 1 materials, 2 cards, 0 videos); limited supporting content.
D. Apply the wave model of light to describe phenomena such as interference, dispersion, diffraction, and polarization. S.Interference, scattering, and polarization; S.Diffraction and Dispersion Covered 10 2 14 0 Covered by 2 topics (10 questions, 2 materials, 14 cards, 0 videos).
E. Apply properties of light to describe the operation of optical devices such as filters, magnifying devices, and diffraction gratings. S.Light Interference Patterns; S.Absorption and Transmission; S.Applications of Waves - Optical Technologies Covered 13 3 16 0 Covered by 3 topics (13 questions, 3 materials, 16 cards, 0 videos).
F. Describe various phenomena (e.g., electron transitions, atomic spectra, operation of a laser) using the photon model of light. S.Dual Nature of Light; S.Light Spectra Covered 11 2 12 0 Covered by 2 topics (11 questions, 2 materials, 12 cards, 0 videos).
PHYSICS (DOMAIN V) Partially covered
SMR V.0012 Understand thermal energy and the kinetic theory of matter.
130 Qs14 Materials63 Cards3 VideosPartially covered
Official CompetencyMatching 240 TopicsAlignmentQsMatsCardsVidsNotes
A. Demonstrate knowledge of the concepts of thermal energy and temperature. S.Heat vs Temperature Covered 11 1 3 0 Covered by 1 topic (11 questions, 1 materials, 3 cards, 0 videos).
B. Solve problems involving thermal expansion, specific heat, phase changes, and the first law of thermodynamics. S.Laws of Thermodynamics; S.Thermal Expansion; S.States of Matter; S.Phase Changes; S.Phase Diagrams; S.Enthalpy Covered 58 6 33 2 Covered by 6 topics (58 questions, 6 materials, 33 cards, 2 videos).
C. Demonstrate knowledge of the kinetic theory of matter. S.Kinetic Molecular Theory of Matter Partially covered 5 1 2 0 Partial coverage by 1 topic (5 questions, 1 materials, 2 cards, 0 videos); limited supporting content.
D. Demonstrate knowledge of energy conversions, efficiency, heat transfer, and heat engines. S.Types of Energy; S.Types of Energy Transfers By Humans; S.Types of Energy Transfers in Ecology; S.Types of Energy Transfers in Space; S.Efficiency Covered 50 5 26 1 Covered by 5 topics (50 questions, 5 materials, 26 cards, 1 videos).
E. Demonstrate knowledge of the second law of thermodynamics, including entropy. S.Laws of Thermodynamics; S.Entropy Covered 14 2 9 0 Covered by 2 topics (14 questions, 2 materials, 9 cards, 0 videos).
SMR V.0013 Understand fundamental ideas of modern physics.
59 Qs10 Materials80 Cards0 VideosPartially covered
Official CompetencyMatching 240 TopicsAlignmentQsMatsCardsVidsNotes
A. Demonstrate knowledge of the significance of the work of scientists such as Curie, Rutherford, and Planck in the development of modern physics. S.Key History of Science; S.Famous Experiments; S.Diversity in Science History; S.Periodic Table - History of Development Covered 32 4 60 0 Covered by 4 topics (32 questions, 4 materials, 60 cards, 0 videos).
B. Analyze the Bohr model of the atom. S.Atomic Models; S.Atoms and Molecules Covered 13 2 9 0 Covered by 2 topics (13 questions, 2 materials, 9 cards, 0 videos).
C. Demonstrate knowledge of the basic principles of quantum mechanics, such as wave-particle duality and the uncertainty principle. S.Dual Nature of Light; S.Quantum Applications; S.Uncertainty Principle Covered 11 3 12 0 Covered by 3 topics (11 questions, 3 materials, 12 cards, 0 videos).
D. Demonstrate knowledge of the basic principles of special relativity. S.Special Relativity Partially covered 3 1 0 0 Partial coverage by 1 topic (3 questions, 1 materials, 0 cards, 0 videos); limited supporting content.
SMR V.0014 Understand the fundamental principles of nuclear physics.
58 Qs8 Materials19 Cards1 VideosPartially covered
Official CompetencyMatching 240 TopicsAlignmentQsMatsCardsVidsNotes
A. Demonstrate knowledge of the structure of the nucleus, including the forces that hold it together. S.Parts of an Atom; S.Stable/Unstable Isotopes Covered 15 2 10 1 Covered by 2 topics (15 questions, 2 materials, 10 cards, 1 videos).
B. Apply knowledge of radioactive decay processes and the concept of the half-life to analyze and solve problems. S.Radioactivity; S.Half-life Calculations; S.Applications of Radioactivity Covered 29 3 8 0 Covered by 3 topics (29 questions, 3 materials, 8 cards, 0 videos).
C. Demonstrate knowledge of the processes of nuclear fission and nuclear fusion. S.Fission; S.Fusion Partially covered 6 2 2 0 Partial coverage by 2 topics (6 questions, 2 materials, 2 cards, 0 videos); limited supporting content.
D. Apply the principles of conservation of charge and mass-energy to analyze nuclear reactions. S.Balancing Nuclear Equations Covered 8 1 4 0 Covered by 1 topic (8 questions, 1 materials, 4 cards, 0 videos).

How 240 Creates The TX PACT: Physics: Grades 7–12 (739) Study Guide

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Every 240 study guide starts with the official exam framework. From there, we organize lessons, practice, and study tools around the categories the exam uses to measure candidate knowledge.

1
Review the official exam framework
We begin with the standards, domains, competencies, objectives, or content categories published by the testing authority.
2
Map the tested categories
We map every major area the exam is designed to cover so the guide reflects the real structure of the test.
3
Build lessons around tested content
We create study materials to support the official blueprint, not broad filler content.
4
Cross-check practice against exam expectations
We review practice content against the framework and real exam patterns so preparation stays targeted.
5
Review and update as standards change
When official frameworks change, we review guides and update alignment as needed.

Reviewed by subject-matter experts and maintained to reflect current standards.

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Why 240 Is Better Than Other Generic Study Guides

Not all study guides are built the same way. Here is what separates a test-aligned guide from a generic one — and why it matters when you are preparing for the TX PACT: Physics: Grades 7–12.

Generic
Generic Prep
Covers broad subject areas without structure
No clear connection to the official exam framework
Practice questions may not reflect the real test format
May not update when official standards change
~Can be helpful for quick, broad review
Test-aligned
240 Test-Aligned TX-PACT 739 Prep
Every lesson maps to an official domain or competency
Built directly from the official exam framework
Practice questions aligned to what the exam actually measures
A clear study path by tested category
Study smarter and enter test day more prepared

FAQs About the TX PACT: Physics: Grades 7–12 Study Guide

The questions teacher candidates ask us most often about the TX PACT: Physics: Grades 7–12 study guide.

1
Is 240 a good study guide for TX PACT: Physics: Grades 7–12?
240 is a strong option because the guide is built around the official exam framework and shows detailed alignment by SMR and competency.
2
How closely does 240 align to the TX-PACT 739 exam?
This guide is 85% aligned based on a competency-by-competency review of the official framework and the study resources included in the guide.
3
Does 240 cover every competency?
This page shows coverage transparently across covered, partially covered, and identified gaps so candidates can see exactly how the guide maps to the exam.
4
What does “partially covered” mean?
Partially covered means the guide addresses the core parts of a competency, but some depth or subtopics may still be limited.

Study What's Actually on the TX-PACT 739 Exam

Start with a study guide built around the real exam. 240's guide maps lessons and study tools to official competencies so you can prepare more efficiently and more confidently.