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Project Lead the Way

Project Lead The Way (PLTW) is a national nonprofit organization that provides hands-on, project-based curriculum in science, technology, engineering, and mathematics (STEM), along with career and technical education (CTE), to prepare PreK-12 students for college and careers through real-world problem-solving and skill development.^[1] Founded in 1997 by educators in upstate New York with initial philanthropic support, PLTW originated from efforts in the late 1980s to create an engaging high school engineering curriculum amid concerns over America's engineering talent shortage.^[2] The program launched across 12 school districts and expanded nationally in 1998, incorporating corporate partnerships like Autodesk for software tools and, in the 2010s, growing to include middle school (Gateway, ca. 2013) and elementary (Launch, ca. 2015-2016) levels.^[2] Today, headquartered in Indianapolis, Indiana, PLTW emphasizes teacher professional development through certified training to ensure effective implementation in schools.^[3] PLTW's curriculum is structured into four core programs forming cohesive PreK-12 pathways: PLTW Launch for grades PreK-5, introducing foundational STEM concepts through modular activities; PLTW Gateway for grades 6-8, exploring topics like robotics, coding, and human body systems; and high school offerings in Engineering, Biomedical Science, and Computer Science, each comprising multi-course sequences that align with industry standards and foster durable skills such as critical thinking, collaboration, and innovation (including a 2025 pilot for AI curriculum in Massachusetts).^[4] ^[5] These programs integrate activity-, project-, and problem-based learning, supported by PLTW's research-backed instructional model and partnerships with universities for college credit opportunities.^[4] With a presence in 12,775 schools across all 50 states (as of 2024), PLTW reaches approximately 2.47 million students and trains about 16,000 teachers annually, with over 100,000 teachers trained cumulatively, significantly boosting STEM engagement and postsecondary outcomes.^[6] High school participants report greater interest in STEM careers (92% in a Massachusetts study), while alumni from the Biomedical Science pathway, for example, are 32% more likely to pursue STEM majors and 49% more likely to enroll in college compared to non-PLTW peers (as of 2024 Texas study).^[7] Graduates also enter the workforce with higher starting wages, reflecting the program's emphasis on transportable, employer-valued competencies.^[1]

History and Development

Founding and Origins

The origins of Project Lead the Way (PLTW) trace back to 1986, when a public school teacher in upstate New York developed a specialized high school curriculum aimed at inspiring more students to pursue engineering studies in college. This initiative was motivated by a perceived national shortage of engineering students entering higher education, with the goal of fostering interest in technical fields through practical, hands-on learning experiences.^[2] In June 1997, PLTW was formally established as a nonprofit organization, launching with introductory engineering courses offered in 12 high schools across upstate New York. The program was designed to bridge the engineering workforce gap by providing rigorous, project-based STEM education that emphasized real-world problem-solving and critical thinking skills. From its inception, PLTW focused exclusively on high school-level engineering pathways to prepare students for postsecondary success in STEM careers.^[2] Headquartered in Indianapolis, Indiana, PLTW was incorporated as a 501(c)(3) nonprofit to support its mission of expanding access to quality STEM education nationwide. Early leadership, drawn from educators and industry partners, prioritized the development of a scalable model that integrated teacher training with curriculum delivery, setting the foundation for the organization's growth while maintaining its commitment to addressing workforce needs in engineering.^[8]^[3]

Expansion and Milestones

Following its founding in 1997, Project Lead The Way (PLTW) experienced rapid expansion in the early 2000s, launching additional high school courses as part of its engineering curriculum to address growing demand for STEM education. In the early 2000s, the program expanded rapidly, becoming active in schools across all 50 states by 2008.^[2] In 2007, PLTW introduced its Biomedical Science pathway, expanding beyond engineering to incorporate health sciences and preparing students for careers in medicine and biotechnology. This addition marked a diversification of offerings, responding to shortages in healthcare professionals. The Computer Science pathway followed in 2014, further broadening the curriculum to emphasize computational thinking and software development amid rising technology sector needs.^[9]^[10] PLTW extended its reach to younger grades with the launch of the Gateway program for middle schools in 2013, providing introductory STEM experiences aligned with high school pathways. In 2015, the Launch program debuted for elementary schools (PreK-5), enabling earlier engagement in hands-on learning and contributing to the organization's shift toward a comprehensive K-12 model. These expansions supported steady enrollment growth, with PLTW reaching over 6,500 schools by 2014.^[11]^[12] Key organizational milestones included the relocation of PLTW's headquarters to Indianapolis, Indiana, in 2011, which facilitated operational scaling and proximity to educational partners in the Midwest. To accommodate program growth, PLTW significantly expanded its teacher professional development initiatives, serving over 100,000 educators annually through core training and ongoing support models, with more than 100,000 teachers trained cumulatively nationwide.^[13]^[14] Celebrating its 25th anniversary in 2022, PLTW had grown to serve over 12,200 schools and more than 2.4 million students annually across all 50 states. As of 2025, PLTW serves students in over 12,200 schools across all 50 states, reaching more than 2.4 million students annually.^[15]

Educational Approach

Project-Based Learning Model

Project Lead The Way (PLTW) utilizes an Activity-, Project-, and Problem-Based (APB) instructional approach as its foundational project-based learning (PBL) model, where students participate in open-ended projects that replicate real-world STEM professional practices. This framework scaffolds foundational knowledge through structured activities leading into comprehensive projects and culminates in solving authentic problems, enabling students to transfer concepts to practical applications while developing essential skills such as critical thinking, collaboration, and innovation.^[16] Central to this model are key elements like the interdisciplinary integration of science, technology, engineering, and mathematics (STEM), which encourages students to draw connections across subjects in hands-on challenges that emphasize real-world relevance. PLTW incorporates an engineering design process to guide problem-solving, typically involving steps such as defining the problem, researching solutions, brainstorming ideas, prototyping, testing, evaluating results, and iterating based on feedback—often incorporating empathy for user needs in early stages to ensure human-centered outcomes. This process promotes iterative learning and adaptability, mirroring industry standards in STEM fields. The model continues to evolve with annual curriculum updates, such as enhancements for the 2025–26 school year.^[17]^[18]^[19] The PBL model aligns closely with Career and Technical Education (CTE) standards, fostering career readiness across PreK-12 by equipping students with technical skills, workplace competencies, and exposure to more than 280 STEM-related careers through progressively complex experiences. For instance, general activities might include designing and programming robots to navigate obstacles in team-based challenges or simulating biomedical devices to address health-related scenarios, allowing students to practice professional workflows without rigid prescriptions. This approach is implemented consistently in PLTW's elementary, middle, and high school programs to build a cohesive STEM pathway.^[20]^[21]

Teacher Professional Development

Project Lead The Way (PLTW) requires educators to complete mandatory professional development to teach its curriculum, ensuring they are equipped to deliver high-quality STEM instruction. This training, known as Core Training, typically ranges from 16 to 80 hours of instructional time per course, depending on the program level, with additional prerequisite coursework. Formats include immersive summer institutes, flexible online modules, and workshops led by PLTW-certified master teachers who facilitate hands-on, collaborative sessions. For instance, elementary PLTW Launch training may involve 16 hours over two days, while high school pathways like Engineering or Biomedical Science often require up to 80 hours in a two-week intensive format.^[22]^[23]^[22] The training emphasizes building teacher capacity in key areas, including deep STEM content knowledge, facilitation of project-based learning (PBL), and effective classroom management for hands-on, real-world activities. Participants engage in authentic curriculum experiences, learning to implement PLTW's instructional approach that integrates rigorous academics with collaborative problem-solving. This preparation enables teachers to create engaging environments that foster student innovation and critical thinking.^[22]^[24] Ongoing support for certified teachers is provided through the MyPLTW online platform, which offers access to curriculum resources, customizable lesson planning tools, and community forums for peer collaboration and sharing best practices. PLTW encourages annual recertification or refresher training to maintain proficiency. The PLTW Training Guarantee covers replacement training if a certified teacher leaves the district within four years of earning the credential, though state licensure requirements may vary.^[25]^[26] Since its inception, PLTW has trained more than 116,000 teachers nationwide (as of 2025), with a strategic emphasis on recruiting and retaining diverse educators through diversity, equity, and inclusion (DEI) initiatives to better reflect student populations and enhance STEM access.^[3]^[27]^[28]

Elementary and Middle School Programs

PLTW Launch

PLTW Launch is the elementary school component of Project Lead The Way's curriculum, designed for students in PreK through grade 5 to introduce foundational STEM concepts through exploratory and play-based learning.^[29] The program consists of 43 modular units distributed across these grades, each delivered in sessions lasting 45 to 90 minutes to accommodate typical elementary school schedules.^[29]^[30] These units cover core themes such as properties of matter, motion and stability, and early engineering design, integrating hands-on exploration with standards-aligned content in science, engineering, computer science, and biomedical science.^[31] Key modules within PLTW Launch emphasize interactive discovery, such as Light and Sound, where students explore wave properties through experiments with shadows, echoes, and vibrations to understand how light and sound travel.^[29] Another example is Structure and Function, which introduces biomimicry by having young learners observe natural forms—like bird wings or plant structures—and design simple models that mimic these for practical applications.^[31] The Robotics Age module engages participants in basic coding and construction using age-appropriate tools, such as block-based programming to control simple robots or build mechanisms that demonstrate cause-and-effect relationships.^[29] The primary goals of PLTW Launch are to cultivate curiosity, promote design thinking, and develop basic STEM literacy by immersing students in hands-on activities, including building physical models from everyday materials or conducting experiments with natural phenomena like water flow or plant growth.^[29] These experiences encourage iterative problem-solving and collaboration, helping children connect abstract concepts to real-world applications in a low-stakes, playful environment.^[32] Implementation of PLTW Launch is highly flexible, allowing schools to adopt the full set of modules or select specific units to fit existing elementary schedules, whether integrated into daily science blocks, specials rotations, or after-school programs.^[29] This adaptability supports bilingual delivery in English and Spanish, ensuring accessibility while aligning with national standards like NGSS and CSTA.^[29] As a foundational program, it sets the stage for progression into more structured explorations in middle school, such as PLTW Gateway.^[29]

PLTW Gateway

PLTW Gateway is a middle school STEM curriculum designed for grades 6-8, consisting of 10 independent units that introduce students to interdisciplinary concepts in computer science, engineering, and biomedical science through hands-on, project-based learning.^[33] The program features two foundational units—Design and Modeling and Automation and Robotics—followed by eight specialization units, allowing schools to implement the curriculum flexibly to align with their academic schedules.^[34] Each unit spans approximately nine weeks, assuming 45-minute class periods, and emphasizes real-world problem-solving to foster skills in critical thinking, collaboration, and innovation.^[35] Key units include Automation and Robotics, where students design, build, and program VEX robots to automate tasks, exploring the history and impact of automation in industries; Flight and Space, in which participants apply aeronautics principles to design, test, and simulate airfoils using custom software; and Green Architecture, focusing on sustainable design practices with Autodesk 3D tools to create eco-friendly housing models.^[36] Other notable units cover Energy and the Environment, involving the modeling of alternative energy sources to address sustainability challenges; and Medical Detectives, where students analyze genetic information and vital signs to diagnose simulated medical cases. These activities promote teamwork and problem-solving by engaging students in iterative design processes, such as programming mobile apps or investigating nanotechnology applications in everyday technologies.^[33] The primary goals of PLTW Gateway are to build student confidence in STEM fields, enhance engagement through authentic challenges, and prepare learners for high school pathways by connecting middle school explorations to advanced coursework in areas like aerospace engineering and environmental science.^[36] By integrating career connections—such as roles in robotics engineering or biomedical research—the curriculum broadens students' awareness of STEM professions and their societal relevance.^[33] Building on the foundational play-based modules of PLTW Launch for PreK-5, Gateway shifts toward more technical explorations to bridge elementary concepts with high school rigor.^[4] Units in PLTW Gateway offer high adaptability, enabling educators to teach them standalone for targeted skill-building or sequentially for a cohesive year-long program, with an emphasis on real-world applications like reducing energy consumption or developing assistive devices.^[34] This flexibility supports diverse implementation models, including pathway-focused sequences aligned to specific high school tracks or access across all grade levels to ensure equitable STEM exposure.^[36]

High School Programs

Engineering Pathway

The Engineering Pathway in Project Lead The Way (PLTW) is a high school curriculum sequence designed to prepare students for engineering careers by emphasizing hands-on design, problem-solving, and prototyping skills. Typically beginning in 9th grade, the core sequence consists of three foundational courses: Introduction to Engineering Design (IED), Principles of Engineering (POE), and Engineering Design and Development (EDD), which build progressively upon one another. IED serves as the entry point and has no prerequisites, while POE recommends completion of IED, and EDD requires both prior courses. Optional specialized courses, such as Digital Electronics (DE), Computer Integrated Manufacturing (CIM), and Aerospace Engineering (AE), can be integrated after the core sequence or alongside POE to provide deeper exploration in specific engineering disciplines.^[18] In IED, students learn the engineering design process through activities focused on sketching, 3D modeling, and prototyping real-world solutions, often using computer-aided design (CAD) software and 3D printing technologies. POE builds on this foundation by examining key engineering principles, including mechanics, materials, energy sources, and control systems, where students engage in collaborative projects to analyze and solve technical problems. These courses foster critical thinking and teamwork by simulating professional engineering environments.^[18] The capstone course, EDD, typically taken in 12th grade, challenges students to apply their accumulated knowledge in independent team-based projects, developing an original product or system to address authentic engineering challenges, often culminating in presentations to industry experts. Optional courses expand this expertise: DE explores digital systems, logic design, and circuit prototyping; CIM introduces automation, robotics, and manufacturing processes like CNC machining; and AE covers aerodynamics, propulsion, orbital mechanics, and spacecraft design. Together, these elements equip students with practical skills for postsecondary engineering programs or careers.^[18] Throughout the pathway, students develop proficiency in CAD software, prototyping techniques including 3D printing, and applying engineering principles to solve complex, real-world problems, promoting innovation and technical communication. The curriculum aligns with national standards such as the Next Generation Science Standards, enhancing its relevance for college credit opportunities.^[18] Students completing the pathway may also enroll in the PLTW Capstone course, introduced in 2025, for an additional open-ended research experience.^[19]

Computer Science Pathway

The Project Lead the Way (PLTW) Computer Science Pathway for high school students provides a structured sequence of courses designed to build foundational and advanced skills in computing, preparing participants for careers in technology fields such as software development and cybersecurity.^[37] The pathway consists of four core courses: Computer Science Essentials (CSE), Computer Science Principles (CSP), Computer Science A (CSA), and Cybersecurity, which can be followed by a capstone project or the PLTW Capstone course for deeper exploration.^[37] These courses emphasize collaborative, project-based learning to foster computational thinking and practical application of computer science concepts.^[37] Computer Science Essentials (CSE) serves as the introductory course for grades 9-12, introducing computational thinking through block-based and text-based programming like Python, along with topics in data, algorithms, and internet fundamentals. Building on this, Computer Science Principles (CSP) is recommended for grades 10-12, where students explore the big ideas of computing through a year-long curriculum spanning 160 days.^[38] It introduces coding using text-based languages like Python for tasks such as turtle graphics and data encoding, alongside topics in data analysis, internet security, and app development.^[38] Students engage in units on creative computing, cybersecurity basics, data visualization, and simulations, developing skills in algorithmic thinking, abstraction, and ethical considerations of technology.^[38] CSP is endorsed by the College Board as aligned with the AP Computer Science Principles exam.^[37] Building on CSP, Computer Science A (CSA) is a year-long course suited for grade 12 students, focusing on advanced programming and problem-solving over 160 days with extensive hands-on labs.^[39] The curriculum centers on Java for object-oriented programming, covering fundamentals like control structures, iteration, arrays, inheritance, and recursion, while addressing data structures and real-world software applications.^[39] Key skills include algorithm design, error debugging, testing solutions, and collaborative development, preparing students for professional software engineering practices.^[39] Like CSP, CSA is endorsed by the College Board for alignment with the AP Computer Science A exam and includes preparation for the Oracle Certified Associate Java certification.^[37] The advanced Cybersecurity course targets grades 10 and above, offering a 160-day exploration of ethical hacking, network protection, and digital forensics through virtual labs and role-playing scenarios.^[40] It covers personal and system security, network risks with packet analysis, cryptography, and applied forensics, aligning with the National Initiative for Cybersecurity Education (NICE) Framework.^[40] Students develop expertise in intrusion detection, vulnerability assessment, and ethical computing, with opportunities to delve into data science elements like secure data handling.^[40] An optional Principles of AI course, building AI literacy through dashboards and classifiers, is planned for launch in Fall 2026.^[19] The pathway as a whole is accessible to students in grades 9-12, with courses increasing in complexity and no strict prerequisites beyond recommending prior courses in sequence.^[37] Overall, it cultivates skills in programming across text-based languages, data analysis, algorithm design, and computational thinking to equip learners for tech industry demands. Pathway completers may enroll in the PLTW Capstone course, introduced in 2025.^[19]^[37]

Biomedical Science Pathway

The Biomedical Science Pathway is a high school curriculum sequence offered by Project Lead The Way (PLTW) that immerses students in the study of health sciences and medical innovation through hands-on, project-based learning.^[41] This four-course program builds progressively, enabling students to explore biological concepts, medical practices, and innovative solutions to health challenges while integrating principles of biology and engineering.^[42] Designed for grades 9-12, it equips learners with practical skills applicable to careers in healthcare, research, and biotechnology.^[41] The pathway begins with Principles of Biomedical Science (PBS), a foundational course where students investigate the personal and societal impacts of human health conditions, including disease diagnosis, outbreak management, and emergency response.^[42] Participants engage in activities such as crime scene analysis, patient case studies, and basic lab experiments to understand biology, genetics, microbiology, and epidemiology.^[43] Following PBS, Human Body Systems (HBS) focuses on anatomy and physiology, with students modeling organ functions, collecting data on systems like respiration and circulation, and exploring rehabilitation techniques.^[44] The third course, Medical Interventions (MI), examines diagnostics, treatments, and prevention strategies, covering topics like immunology, pharmacology, surgery, and medical devices through simulations such as DNA analysis and treatment evaluations.^[45] Culminating in Biomedical Innovation (BI), a capstone where students conduct independent research projects on real-world biomedical problems, often collaborating with mentors to design solutions in areas like public health and clinical medicine.^[46] Throughout the sequence, students develop essential skills including laboratory techniques for data collection and analysis, bioinformatics for processing genetic information, and ethical reasoning in medical decision-making.^[41]^[47]^[48] Project-based inquiries encourage collaborative problem-solving on health issues, such as designing prosthetics or addressing epidemics, fostering technical documentation and communication abilities.^[43] The courses are sequential, with each building on the prior—PBS typically in 9th grade, HBS in 10th, MI in 11th, and BI in 12th—though prerequisites recommend only completion of the previous course in the pathway, alongside basic biology knowledge.^[42] This structure connects to middle school PLTW Gateway units by extending introductory STEM explorations into specialized biomedical applications.^[33] Students completing the pathway may also enroll in the PLTW Capstone course, introduced in 2025, for an additional open-ended research experience.^[19]

Partnerships and Certifications

AP + PLTW Alignment

In 2015, Project Lead The Way (PLTW) partnered with the College Board to integrate Advanced Placement (AP) coursework into PLTW's high school pathways, enabling students to pursue dual credit and certification opportunities in STEM fields.^[49] This collaboration, launched with recognition opportunities beginning in the 2016-17 school year, combines PLTW's project-based learning with AP's rigorous academic standards to create cohesive pathways in engineering, biomedical science, and computer science.^[50] The initiative aims to boost college and career readiness by allowing students to earn AP credentials alongside practical STEM skills. Specific alignments exist across PLTW's high school programs. In the Computer Science Pathway, PLTW Computer Science Principles is endorsed by the College Board and fully aligns with the AP Computer Science Principles curriculum framework and exam, while PLTW Computer Science A aligns with AP Computer Science A, enabling students to prepare for and take these AP exams directly through the PLTW courses.^[51]^[37] In the Biomedical Science Pathway, courses such as Human Body Systems and Medical Interventions incorporate elements of AP Biology, with the overall pathway integrating AP Biology and AP Chemistry to provide foundational knowledge in human physiology, disease intervention, and biochemistry.^[50] The Engineering Pathway similarly pairs PLTW courses like Principles of Engineering with AP courses including AP Physics 1, AP Physics 2, and AP Calculus to emphasize applied problem-solving.^[50] The benefits of this alignment include students earning college credit via AP exams while engaging in PLTW's hands-on projects, which simulate real-world STEM applications and foster skills like collaboration and innovation.^[49] To achieve alignment, PLTW enhances its curricula with modules and assessments that meet College Board standards, ensuring seamless preparation for AP exams without requiring separate traditional AP classes in endorsed areas like computer science.^[51] Schools implementing these pathways can receive recognition from both organizations for program integration, further supporting student access to scholarships and internships.^[52]

Industry and College Recognitions

Project Lead the Way (PLTW) maintains strategic partnerships with leading industry organizations that endorse and support its STEM curriculum through funding, resources, and program integration. Boeing has provided grants to expand PLTW programs, such as a 2012 initiative with the University of South Carolina to implement PLTW in middle schools, emphasizing hands-on engineering education. Intel, through its foundation, collaborates closely with PLTW to develop and promote courses like Engineering and Gateway programs, including the announcement of an Advanced Manufacturing curriculum in March 2025, with a module for grades 8-9 launching in Fall 2025 and the full course for grades 10-12 in the 2026-27 school year, designed to prepare students for modern industry demands. As of November 2025, the Advanced Manufacturing module is available for implementation in grades 8-9. These partnerships enhance curriculum relevance by connecting classroom activities to real-world applications in aerospace, technology, and manufacturing sectors.^[53]^[54]^[55] PLTW's curriculum aligns with key educational standards to ensure rigor and industry relevance, including the Next Generation Science Standards (NGSS), Common Core State Standards, and Computer Science Teachers Association (CSTA) standards across its pathways. While not directly accredited by bodies like ABET or ASME, the programs incorporate engineering design processes and technical skills that support preparation for ABET-aligned postsecondary engineering programs. PLTW's teacher professional development model is accredited by the International Association for Continuing Education and Training (IACET) under ANSI/IACET standards, emphasizing pedagogical best practices for STEM instruction.^[21]^[56]^[57] PLTW facilitates college credit opportunities through articulation agreements with numerous universities, enabling students to earn transferable credits upon successful completion of designated courses and end-of-course assessments. The American Council on Education (ACE) recommends three semester hours of credit for each of seven PLTW courses, including Principles of Engineering, Digital Electronics, and Principles of Biomedical Science, accepted by over 1,600 institutions nationwide. Examples include Purdue University, which awards up to three credits in its Mechanical Engineering Technology program for eligible PLTW courses with a grade of B or higher, and the University of New Haven, which grants credit for courses like Civil Engineering and Architecture. Other partners, such as Rochester Institute of Technology (RIT) and the University of Wisconsin-Stout, offer similar pathways, with scholarships and preferred admissions for PLTW completers.^[58]^[59]^[60] Students in PLTW pathways can pursue industry-recognized certifications to validate their skills and enhance employability. In the Engineering pathway, participants may earn the Autodesk Certified User credential in AutoCAD through integrated assessments and Certiport testing centers, preparing them for careers in design and manufacturing. The Computer Science pathway includes opportunities for CompTIA certifications, such as Security+ in cybersecurity, supported by a collaborative effort between PLTW and CompTIA to address workforce needs in technology security. These credentials are embedded in course activities, allowing students to demonstrate proficiency in tools used by professionals.^[61]^[62]^[63] As of 2025, PLTW has expanded its offerings with industry validations in emerging areas, including the Intel-partnered Advanced Manufacturing program, which incorporates sustainable practices and computational technologies relevant to AI-driven innovation. This update builds on existing alignments to foster skills in high-demand fields like green engineering and data analytics.^[64]^[55]

Implementation and Support

Program Adoption Process

Schools interested in adopting Project Lead The Way (PLTW) programs initiate the process through the organization's website, where they complete an initial inquiry by creating an account on the myPLTW platform and registering their district or school.^[65]^[66] This step involves providing organizational details, designating program coordinators, and outlining the site's information to establish a foundation for program integration. Following registration, schools select specific programs and pathways—such as the Engineering, Biomedical Science, or Computer Science pathways for high school—with options to implement full sequences for a cohesive curriculum experience or start with partial or pilot implementations.^[34]^[4] Key requirements for adoption include identifying qualified teachers who will enroll in PLTW's professional development training and ensuring the provision of essential classroom resources, such as computers, software, and specialized lab kits as detailed in the program's purchasing guidelines.^[34] Schools must also commit to annual program reviews, submitting eligibility data through myPLTW to maintain quality standards and pursue recognition as a distinguished PLTW site.^[67] These reviews verify enrollment, participation rates, and equity in access, allowing PLTW to assess and support ongoing implementation. Throughout the adoption phase, PLTW offers dedicated support via the Solution Center and team consultations, assisting with strategic planning, applications for grants to offset startup costs, and alignment of the curriculum with state academic standards.^[68]^[69] This guidance helps schools map out implementation approaches, from full pathways to pilot options for initial testing. The overall timeline from initial registration to program launch typically spans several months, accommodating teacher training schedules, resource procurement, and customization to local needs.^[34]

Costs and Financial Assistance

Schools adopting Project Lead the Way (PLTW) programs incur core costs in three primary categories: annual participation fees, teacher professional development, and materials or equipment. The annual participation fee grants access to the digital curriculum platform MyPLTW, which delivers all instructional resources, assessments, and support materials electronically, while physical kits and equipment are shipped directly to schools as needed through the PLTW Store, offering free shipping and no minimum order requirements. For high school pathways, participation fees range from $2,200 for the Computer Science or Biomedical Science pathways to $3,200 for the Engineering pathway, with a maximum combined fee of $5,400 when multiple pathways are adopted at a single school.^[70]^[71] Teacher training, known as PLTW Core Training, is a one-time cost per educator and immerses participants in hands-on, collaborative sessions to prepare them for delivering the curriculum effectively. Costs vary by program level and format (virtual or in-person), typically ranging from $500 to $2,400 per teacher for high school pathways, with the PLTW Training Guarantee providing free additional support if needed. Materials and equipment costs depend on the specific courses and class size; consumable kits and basic supplies are purchased as needed, while specialized durable equipment for advanced courses like those in the Engineering pathway can require substantial initial investments.^[22]^[70] To offset these expenses, PLTW offers financial assistance through its own grant programs, which support program implementation and expansion by covering participation fees, professional development, and equipment purchases, particularly for schools aligned with PLTW's mission of equitable STEM access. Federal funding sources, such as the Carl D. Perkins Career and Technical Education Act, provide additional aid for CTE programs like PLTW, reimbursing costs for teacher training and curriculum integration. Partnerships with foundations and corporations further enhance support, enabling over $10 million in annual scholarships and grants for PLTW students and schools, often targeting career pathways in STEM fields.^[72]^[69]^[73] As of 2025, PLTW's equity initiatives emphasize reduced barriers for underserved schools through targeted grants that prioritize high-need districts, ensuring broader access to STEM education without full financial burden on local budgets. These efforts include application deadlines of November 7, 2025, and December 5, 2025, for funding effective in the 2026-27 school year, focusing on equipping classrooms in diverse and low-resource communities.^[74]^[72]

Impact and Evaluation

Student Outcomes

Participation in Project Lead the Way (PLTW) programs has been associated with notable gains in students' STEM-related skills and confidence. Research indicates that PLTW students demonstrate improved problem-solving, teamwork, communication, and critical-thinking abilities compared to their non-PLTW peers, with teachers observing enhanced self-reliance and ethical reasoning in real-world applications.^[7] Additionally, surveys show that 92% of high school students and 87% of middle school students in Massachusetts reported increased interest in STEM following PLTW coursework, contributing to higher confidence levels, particularly among female participants where 76% of high school seniors expressed belief in their ability to become engineers.^[7] These skill improvements are linked to PLTW's hands-on, project-based learning, which fosters a 5-point average increase in math and science scores on assessments like the Iowa Test of Educational Development.^[7] PLTW participation significantly influences students' career trajectories, particularly in engineering, computer science, and biomedical fields. Studies reveal that PLTW completers are more likely to pursue STEM majors in college, with Biomedical Science pathway students 32% more likely and Engineering pathway students 14% more likely to declare STEM majors compared to non-participants.^[7] Alumni have secured prominent roles in high-impact organizations, such as flight communications engineers at NASA through the Artemis program and professionals in technology firms advancing STEM innovations.^[75] In healthcare, Biomedical Science pathway graduates contribute to hospital roles, supported by a 49% higher college enrollment rate among these students, facilitating entry into medical and life sciences careers.^[7] Demographic data highlights PLTW's efforts to engage underrepresented groups, with targeted growth in participation among females, minorities, and students in rural schools. Female enrollment has increased, with programs like the Girls Lead The Way summits boosting involvement, and studies showing greater math and science interest gains for girls compared to boys.^[76]^[77] For minority students, Black and Hispanic participants are 17-19% more likely to enroll in post-secondary institutions after completing two or more PLTW courses, with particular benefits for Hispanic females in high school graduation and dual credit opportunities.^[78]^[79] Expansion into rural and minority-serving schools has grown, with analyses across urban, suburban, and rural settings demonstrating equitable outcomes in STEM persistence, helping to diversify the pipeline in these communities.^[80] Longitudinal tracking of PLTW cohorts provides evidence of sustained career advantages. For instance, data from Iowa cohorts followed from 8th grade through secondary education show that PLTW participants outperform non-participants in math achievement.^[81] In Missouri, 2013–2014 cohorts analyzed through 2023 exhibited 7-11% higher high school graduation rates and 12.5% greater likelihood of declaring STEM majors after multiple courses, with reduced need for remedial education leading to stronger long-term workforce readiness.^[78] These trends underscore PLTW's role in providing enduring advantages, particularly for underrepresented students entering engineering, computer science, and biomedical professions.^[82]

Research and Efficacy Studies

Research on the efficacy of Project Lead the Way (PLTW) programs has primarily focused on their impacts on student outcomes in STEM interest, academic performance, postsecondary enrollment, and career preparation, drawing from empirical studies conducted in various U.S. states. A 2016 systematic literature review analyzed 31 empirical studies, including journal articles, dissertations, and theses, using emergent coding to evaluate PLTW's strengths and weaknesses. The review concluded that PLTW effectively motivates students to pursue STEM degrees, enhances teacher professional development, and fosters student interest in STEM fields, though evidence for improvements in math and science abilities remains limited. Logistical challenges, such as scheduling, space requirements, and moderate financial costs, were identified as barriers to implementation.^[83] State-level evaluations provide more specific quantitative insights into PLTW's outcomes. A 2023 study of over 145,000 students from two Missouri high school cohorts (2013–2014) used regression analyses controlling for student and school characteristics, including 8th-grade test scores, to compare PLTW participants (13% of the cohort) with non-participants. It found that students taking two or more PLTW courses had an 11% higher high school graduation rate, 14.5% higher postsecondary enrollment rate, and 12.5% higher rate of declaring a STEM major compared to non-participants. Among those enrolling in Missouri public colleges, PLTW participants with two or more courses showed 4.2% lower remedial math enrollment and 22.5% higher STEM degree enrollment. Benefits were particularly pronounced for Black and Hispanic male students in dual credit participation and graduation.^[78] Similarly, a longitudinal quasi-experimental study of a 2009 Iowa high school cohort, employing propensity score matching on over 16,000 students' data from K-12 records, community college systems, and the National Student Clearinghouse, examined postsecondary pathways. PLTW participants were 50% more likely to attend community college than to forgo college altogether, with 28% enrolling in STEM majors compared to 10% of non-participants; in matched groups, this gap narrowed to 27% versus 16% (p=0.007). They also demonstrated higher transfer rates to four-year institutions (16% versus 9%) and greater persistence at those institutions (87% continuation rate).^[84] More recent research reinforces these postsecondary benefits. A 2024 analysis of three Missouri cohorts using difference-in-differences methods and principal score weighting found significant intention-to-treat effects on STEM major declaration for students with higher prior STEM preparation, with treatment-on-the-treated estimates showing robust positive impacts across strategies. No clear effects on overall college enrollment were observed, and non-participants in PLTW-offering schools showed no spillover benefits.^[82] Studies on specific skill development and attitudes yield mixed results. A 2015 survey of 34 Indiana PLTW teachers rated the curriculum as "effective" to "very effective" (mean scores 4.00–4.67 on a 5-point scale) in building engineering design competencies, such as applying the engineering design process (M=4.65) and constructing electronic circuits (M=4.67), particularly in courses like Introduction to Engineering Design. However, a 2021 dissertation examining a Midwest district's middle school PLTW Gateway program, using t-tests on survey data from 57 high school students and test scores from 5,411 students, found significant positive shifts in STEAM knowledge (p=0.043), perceptions (p<0.001), and career interest (p=0.008) among participants, but no differences in math or science standardized test scores (p>0.05).^[85]^[86] Overall, while PLTW demonstrates consistent efficacy in boosting STEM interest, postsecondary access, and career alignment—especially for underrepresented groups—gaps persist in demonstrating broad academic achievement gains, highlighting the need for additional longitudinal research with diverse populations.^[83]

References

[1]
PLTW: Career Readiness Through STEM & CTE Curriculum
Empower students with PLTW's STEM and CTE curriculum. Hands-on learning that builds real-world skills & career readiness for future success.myPLTW logoExplore CurriculumAbout UsCareersEngineering Curriculum
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Project Lead the Way - Philanthropy Roundtable
Thus was Project Lead the Way born with donated funds in 1997 across a network of 12 New York school districts. The next year it went national, as two New ...
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About PLTW | Our People, Mission, and Impact
As a nonprofit organization founded by educators and driven by education leaders, we've spent more than 28 years equipping students with the technical ...Executive Leadership Team... · Careers · Approach, Impact & Efficacy · News
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Explore Transformative PreK-12 STEM Curriculum | PLTW
### Summary of PLTW Curriculum Programs
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How many students/schools/districts do you serve total? - PLTW
PLTW serves over 2.4 million students in over 12,200 schools across the country in all 50 states. ... ©2025 Project Lead The Way. Loading. How many students ...
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Project Lead the Way, Inc - GuideStar Profile
Aug 28, 2023 · PLTW Launch empowers students in grades PreK-5 to adopt a design-thinking mindset through compelling activities, projects, and problems.<|control11|><|separator|>
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[PDF] The Effectiveness of Project Lead the Way Curricula in Developing ...
PLTW has grown from 11 high schools, mostly in upstate New York, in 1997 to a current total of over. 1600 schools in 46 states, plus Great Britain (McVearry; ...<|control11|><|separator|>
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[PDF] BIOMEDICAL SCIENCES - Cal State East Bay
In 2007, PLTW added a Biomedical Sciences program, also project- based, to stem an impending shortage of healthcare professionals and researchers. PTLW's ...
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Union Schools Expand Access to STEM Programs for K-12 - PLTW
Jun 15, 2015 · In 2014-15, four elementary schools offered the PLTW Launch program to 2,400 students in grades K-5; beginning in sixth grade, Union takes ...
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Project Lead The Way Continues Record Growth - PLTW
Sep 23, 2014 · Currently, over 6,500 schools are offering nearly 7,500 PLTW programs to students in grades K-12; this is the highest in PLTW's 17-year history.Missing: origins | Show results with:origins<|control11|><|separator|>
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PLTW Moving National Office to Indianapolis
Sep 16, 2011 · CLIFTON PARK, N.Y. (September 16, 2011) - Project Lead The Way's Board of Directors and Senior Leadership Team announced Friday that the ...Missing: founding | Show results with:founding
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February 5, 2025 - 12 - Education Week
Feb 5, 2025 · ... PLTW is proud to reach 2.5 million. students in elementary, middle and high schools in all 50 states. With over 100,000 trained teachers.
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Project Lead the Way STEM Curriculum
As a national nonprofit organization, PLTW is proud to reach 2.5 million students in elementary, middle and high schools in all 50 states. With over 100,000 ...Missing: anniversary | Show results with:anniversary
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Activity-, Project-, Problem-Based (APB) Instructional Approach
Overall, PLTW takes PBL project based learning and integrates activities and projects to provide the best student experience. PLTW designs student learning with ...
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PLTW Launch Students Engage in the Design Process
Jul 18, 2016 · Project Lead The Way provides transformative learning experiences for PreK-12 students and teachers across the United States.
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High School Engineering Curriculum Grades 9-12 - PLTW
Explore Our Curriculum. See how our pathways in computer science, engineering, and biomedical science make for a comprehensive PreK-12 learning experience.Curriculum · Success Stories · Standards Connections<|control11|><|separator|>
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Career Advantage: Real-World Readiness Starts Here - PLTW
Support students from awareness to readiness with PLTW's Career Advantage. STEM pathways align with CTE and lead to over 250+ real-world careers.
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See How PLTW Aligns and Connects to Standards
All PLTW pathways are designed to meet the standards that are crucial to your organization, including the Next Generation Science Standards (NGSS) and other ...
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PLTW Core Training
Training ranges from 16 to 80 hours of instructional time plus additional prerequisite coursework. Online training provides flexibility many educators need, ...
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Teacher Professional Development | Training Schedules - PLTW
To get started on or continue your PLTW professional development (PD) journey, review the PLTW Core Training and Professional Development Opportunities below.
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Approximately how long will the prerequisite courses take? - PLTW
The time required to complete prerequisites varies based upon your knowledge of the topic and previous experience; however, as a gauge, allow 6-9 hours to ...
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Professional Development for Teachers in Prek-12 - PLTW
Ideal for accommodating larger groups of educators with flexible scheduling options. Designed to scale effectively for the full implementation of PLTW programs ...
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Professional Development for Teachers - PLTW
PLTW Core Training can help prepare educators to become facilitators and coaches. The program can also empower teachers to bring learning to life, engaging ...
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PLTW Summit 2022 Day-3 Ends with Celebrating Educators and 25…
Oct 31, 2022 · Marlon creates a DEI Operating Plan with strategic objectives, initiatives, and core elements designed to recruit and retain diverse talent ...
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PLTW Hosts Inaugural MasterMinds: A PLTW Master Teacher ...
Oct 18, 2023 · There are more than 98,000 PLTW teachers nationwide, and almost all of them have a connection with the Master Teacher who first trained them.
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PLTW Launch Elementary STEM Curriculum Grades PreK-5
These programs provide access to elementary STEM curriculum to students at all grade levels, ensuring every student gets to experience PLTW. Most strong PLTW ...
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[PDF] PLTW Launch Modules Overview K-5
This curriculum guide provides standards connections for 4 bodies of standards: 1. Next Generation Science Standards (NGSS).Missing: PreK- | Show results with:PreK-
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STEM Curriculum Elementary | PLTW
PLTW Launch offers 43 interdisciplinary modules. The program empowers students to adopt a design-thinking mindset through compelling activities, projects, and ...Missing: structure | Show results with:structure
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PLTW Gateway Middle School STEM Curriculum Grades 6-8
Explore Our Curriculum. See how our pathways in computer science, engineering, and biomedical science make for a comprehensive PreK-12 learning experience.
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[PDF] Project Lead The Way Implementation Guide
Through PLTW's K-12 pathways in computer science, engineering, and biomedical science, students learn problem-solving strategies, critical and creative thinking ...
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PLTW Gateway – Curriculum - Project Lead The Way - UMBC
PLTW Gateway is divided into independent, nine-week units, assuming a 45-minute class period. PLTW Gateway is designed to be taught in conjunction with a ...Missing: list | Show results with:list
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[PDF] PLTW Gateway:
Jun 29, 2021 · Project Lead The Way (PLTW) is the leading PreK-12 applied learning curriculum and teacher professional development provider with pathways ...
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High School Computer Science Curriculum Grades 9-12 | PLTW
PLTW Computer Science engages students in collaborative projects that help them develop in-demand computer science knowledge as well as transportable skills.Missing: 2010 | Show results with:2010
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[PDF] COMPUTER SCIENCE - PLTW
Computer Science Principles (CSP) is a full-year course (160 days) recommended for students in grades 10–12. CSP is aligned with the College Board AP ...Missing: X | Show results with:X
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[PDF] Course Outline - COMPUTER SCIENCE - PLTW
The Computer Science A course includes over 160 hours of hands-on, structured lab experiences to engage students in individual or group problem solving.Missing: X | Show results with:X
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### Summary of PLTW Cybersecurity Course
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High School Biomedical Science STEM Curriculum Grades - PLTW
Explore Our Curriculum. See how our pathways in computer science, engineering, and biomedical science make for a comprehensive PreK-12 learning experience.Curriculum · Success Stories · Standards Connections
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[PDF] BIOMEDICAL SCIENCE - Cornerstone Charter Academy
Sep 9, 2012 · Students address topics ranging from public health and biomedical engineering to clinical medicine and physiology. They have the opportunity to ...
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[PDF] Principles of Biomedical Science Course Outline - PLTW
Principles of Biomedical Science (PBS) is a full-year high school course in the PLTW Biomedical Science Program. This course serves to provide foundational ...Missing: pathway 2007<|separator|>
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[PDF] Human Body Systems Course Outline - BIOMEDICAL SCIENCE
Human Body Systems (HBS) is a full-year high school course designed to follow Principles of Biomedical Science. (PBS) in the PLTW Biomedical Science pathway.
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[PDF] PLTW Biomedical Science Medical Interventions | Course Outline
A “How-To” manual for maintaining overall health and homeostasis in the body, the course will explore how to prevent and fight infection, how to screen and ...
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[PDF] Course Outline - BIOMEDICAL SCIENCE - PLTW
In this capstone course, students apply their knowledge and skills to answer questions or solve problems related to the biomedical sciences.Missing: ethics | Show results with:ethics
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Principles of the Biomedical Sciences (PLTW) - CTE Resource Center
Students also explore medical interventions, postmortem examination, bioprocessing, bioinformatics, and concepts of microbiology and genetic engineering.
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Position on Ethics in Science - PLTW
PLTW students engage in hands-on activities, projects, and problems where they solve real-world challenges and are pushed to develop ethical reasoning skills.Missing: lab | Show results with:lab
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PLTW, College Board Partner to Prepare Students
May 13, 2015 · The partnership aims to increase college and career readiness by combining AP and PLTW courses, creating pathways in STEM fields and providing ...
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[PDF] The College Board and Project Lead The Way
The College Board and PLTW partnered to create pathways in Engineering, Biomedical, and Computer Science, combining AP and PLTW courses for college and career ...
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[PDF] Getting Started with AP® Computer Science Principles
The College Board and Project Lead The Way. (PLTW) are bringing together the successes of the. Advanced Placement Program® (AP®) and PLTW's applied learning ...
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The College Board and PLTW Recognize 1300+ Students
Dec 1, 2016 · Over 1,300 students were recognized for completing an AP and PLTW pathway, demonstrating college and career readiness, and earning a credential.Missing: annually | Show results with:annually
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Boeing Grant to Help STEM Programs in Middle Schools - PLTW
Dec 18, 2012 · The grant will allow the College of Engineering and Computing to implement the Project Lead The Way program in four Charleston-area middle ...
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PLTW launches new programs with Intel for Advanced ... - LinkedIn
PLTW launches new programs with Intel for Advanced Manufacturing. View organization page for Project Lead The Way · Project Lead The Way. 20,324 followers. 5mo.
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PLTW Advanced Manufacturing Course | Engineering Pathway
Build a future-ready workforce with PLTW's Advanced Manufacturing course – hands-on STEM learning that prepares students for in-demand careers.
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Where can I find standards alignment information? - PLTW
All PLTW Launch modules, PLTW Gateway units, and PLTW Biomedical Science, PLTW Engineering, and PLTW Computer Science courses align to Common Core State ...Missing: AP + pathway
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Earn College Credit with PLTW & ACE-Recommended Courses
Discover how PLTW students can earn college credit through ACE-evaluated courses. Learn about eligibility, assessments, and participating institutions.
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Project Lead the Way (PLTW) - Purdue Polytechnic Institute
For students who enter Purdue in Fall 2015 and later and enroll in Mechanical Engineering Technology, it is possible to apply credit earned through Project ...
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PLTW College Credits at the University of New Haven
Secondary school students from any PLTW school may apply for University of New Haven college credit for each of the eligible PLTW course listed below.Missing: articulation agreements list
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PLTW and Partners to Expand Access to Certifications
Oct 27, 2014 · PLTW schools can provide easy certification access to students by becoming a Certiport Authorized Testing Center and administering the Autodesk Certified User ...Missing: cybersecurity | Show results with:cybersecurity
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Earning a CAD Certification Prepares Your Students - PLTW
Mar 23, 2021 · Earning a CAD certification can help students prepare for rigorous college programs and career paths in engineering, architecture, and manufacturing.Missing: CompTIA | Show results with:CompTIA
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CompTIA & CECU: Advancing Tech Education Together
CompTIA is excited to announce a collaborative effort with Project Lead the Way to promote the continued demand for cybersecurity professionals. Through this ...Missing: Autodesk CAD
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PLTW launches Advanced Manufacturing curriculum with Intel
Mar 24, 2025 · ... partners at Intel Corporation. This innovative program is ... View organization page for Project Lead The Way. Project Lead The Way.
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Connect with a PLTW Team Member |The PLTW Experience
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New Registration Process Makes It Easier to Sign Up for PLTW ...
Mar 7, 2024 · We want to make registering for a program as easy as possible. Use this step-by-step guide to expand or sign up for PLTW programs.
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### Summary of Program Adoption, Requirements, Reviews, and Support
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Contact the PLTW Solution Center
If you have questions or concerns, the PLTW Solution Center is available seven days a week at 877.335.7589 or solutioncenter@pltw.org. Technical Support ...Missing: liaison | Show results with:liaison
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Secure STEM Education Grants | Empower Classrooms with PLTW
How to Apply for PLTW Grants? ... Our grant cycle runs from July 1 through June 30 each year. Schools may submit one application per PLTW program during a cycle.Missing: adoption | Show results with:adoption<|control11|><|separator|>
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Empower STEM Education with Grants, Teacher Training & Supplies
Support STEM education with PLTW's multiple program opportunities, grants for growth, hands-on teacher training, and industry-standard classroom supplies.
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How much is the PLTW Participation Fee?
PLTW Launch: $950. PLTW Gateway: $950. PLTW Computer Science: $2,200. PLTW Engineering: $3,200. PLTW Biomedical Science: $2,200. The maximum amount for high ...
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Planning Your PLTW Programs for the 2024-25 School Year
Aug 5, 2025 · Discover the latest updates and resources in our 2025–26 PLTW Curriculum Guide to enhance your STEM teaching and prepare students for future ...
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Explore STEM Grants & Funding Resources - PLTW
Explore exciting STEM grants, funding options, and teacher training opportunities to enhance your PLTW program. Apply now and transform your classroom!Missing: liaison | Show results with:liaison
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See Our Student Opportunities | The PLTW Experience
PLTW students have exclusive access to a variety college credit, scholarships, preferred admission at colleges and universities, internships, and more.
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PLTW Invites Grant Applications from PreK-12 Schools to Support ...
Sep 9, 2025 · PLTW has awarded more than 12,000 grants totaling $134 million to schools nationwide. These grants have been made possible through generous ...Missing: anniversary 2022 3.5
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[PDF] THE IMPACT OF - PLTW
Research demonstrates that Project Lead The Way students outperform their non-PLTW peers in school, are better prepared for post-secondary education, ...
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[PDF] The Efficacy of Project Lead the Way: A Systematic Literature Review
Using a multi-level analysis, Sorge found that PLTW graduates, in general, were more likely to major in STEM when compared to both their non-PLTW peers as well ...
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When Passion Meets Education and Experience, Dreams Take Flight!
Sep 12, 2023 · Alora Mazarakis, a flight communications and tracking engineer on the Artemis program at NASA and former Project Lead the Way (PLTW) Engineering ...Missing: Google hospitals
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Encouraging Girls to Unleash Their Superpowers - PLTW
Dec 19, 2023 · More than 140 PLTW middle and high school students from East Bay schools attended the 6th Annual Girls Lead The Way (GLTW) STEM Summit.Missing: demographics | Show results with:demographics
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[PDF] Final Report of the Impact of Project Lead the Way on Missouri High ...
Students who took PLTW courses outperformed those who did not on all high school and college outcomes examined, and these positive outcomes persisted even after ...
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[PDF] Preliminary Report of the Impact of Project Lead the Way on ...
Growth in the number of districts and schools implementing PLTW, 2005-2020. As shown in Figure 2, growth in the number of schools offering the program was.
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Project Lead the Way: Analysis of Statewide Student Outcomes
Apr 11, 2014 · More specifically, the project will identify PLTW outcomes in rural, suburban, and urban schools and their effects on the everyday experience of ...
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(PDF) A study of the impact of Project Lead the Way on achievement ...
Studies report that students participating in PLTW had higher math academic achievement ... research suggests that integrated curricula can support students ...
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Project Lead the Way: Impacts of a High School Applied STEM ...
Nov 8, 2024 · Currently, more than 12,000 US high schools offer the program. Using data from three cohorts of public high school freshmen in Missouri, we ...
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The Efficacy of Project Lead the Way: A Systematic Literature Review
Jun 26, 2016 · They now simply use PLTW Engineering, PLTW Gateway and PLTW Launch. This study investigates the efficacy of PLTW efforts through a systematic ...Missing: studies | Show results with:studies
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[PDF] Examining the Effectiveness of Project Lead The Way in STEM ...
Our study results revealed that more PLTW participants enroll in higher education the year after graduating high school than students from the same school ...
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[PDF] A Quantitative Study Examining Project Lead the Way Gateway ...
The study examined specific academic achievement outcomes and attitudes regarding. STEAM courses and STEAM careers among students who completed at least one.