ACES (Academic, Career & Employability Skills)

The goal of ACES is to ensure that Adult Basic Education (ABE) programs are able to provide effective contextualized instruction integrating post-secondary education and training readiness, employability skills, and career readiness at all levels.

The Transitions Integration Framework (TIF) is the cornerstone of ACES. It was designed to provide ABE programs and instructors with guidance on the effective integration of transitions skills into instruction at all levels of ABE. The TIF defines the academic, career, and employability skills essential for adult learners to successfully transition to post-secondary education, career training, the workplace, and community involvement.

The ACES Resource Library contains tools to help ABE practitioners incorporate the TIF skills into lessons and instructional settings and provides materials that can be used directly with adult learners.

ACES (Academic, Career & Employability Skills)

The goal of ACES is to ensure that Adult Basic Education (ABE) programs are able to provide effective contextualized instruction integrating post-secondary education and training readiness, employability skills, and career readiness at all levels.

The Transitions Integration Framework (TIF) is the cornerstone of ACES. It was designed to provide ABE programs and instructors with guidance on the effective integration of transitions skills into instruction at all levels of ABE. The TIF defines the academic, career, and employability skills essential for adult learners to successfully transition to post-secondary education, career training, the workplace, and community involvement.

The ACES Resource Library contains tools to help ABE practitioners incorporate the TIF skills into lessons and instructional settings and provides materials that can be used directly with adult learners.

ACES (Academic, Career & Employability Skills) The goal of ACES is to ensure that Adult Basic Education (ABE) programs are able to provide effective contextualized instruction integrating post-secondary education and training readiness, employability skills, and career readiness at all levels. The Transitions Integration Framework (TIF) is the cornerstone of ACES. It was designed to provide ABE programs and instructors with guidance on the effective integration of transitions skills into instruction at all levels of ABE. The TIF defines the academic, career, and employability skills essential for adult learners to successfully transition to post-secondary education, career training, the workplace, and community involvement. The ACES Resource Library contains tools to help ABE practitioners incorporate the TIF skills into lessons and instructional settings and provides materials that can be used directly with adult learners.

ACES (Academic, Career & Employability Skills) The goal of ACES is to ensure that Adult Basic Education (ABE) programs are able to provide effective contextualized instruction integrating post-secondary education and training readiness, employability skills, and career readiness at all levels. The Transitions Integration Framework (TIF) is the cornerstone of ACES. It was designed to provide ABE programs and instructors with guidance on the effective integration of transitions skills into instruction at all levels of ABE. The TIF defines the academic, career, and employability skills essential for adult learners to successfully transition to post-secondary education, career training, the workplace, and community involvement. The ACES Resource Library contains tools to help ABE practitioners incorporate the TIF skills into lessons and instructional settings and provides materials that can be used directly with adult learners.

ACES (Academic, Career & Employability Skills) The goal of ACES is to ensure that Adult Basic Education (ABE) programs are able to provide effective contextualized instruction integrating post-secondary education and training readiness, employability skills, and career readiness at all levels. The Transitions Integration Framework (TIF) is the cornerstone of ACES. It was designed to provide ABE programs and instructors with guidance on the effective integration of transitions skills into instruction at all levels of ABE. The TIF defines the academic, career, and employability skills essential for adult learners to successfully transition to post-secondary education, career training, the workplace, and community involvement. The ACES Resource Library contains tools to help ABE practitioners incorporate the TIF skills into lessons and instructional settings and provides materials that can be used directly with adult learners.

In this professional development session, we will develop a shared understanding of how formative assessment works and different approaches that have been developed. The material for this resource come from a series of PD sessions on formative assessment developed by the ACESSE team: Philip Bell, Shelley Stromholt, Bill Penuel, Katie Van Horne, Tiffany Neill, and Sam Shaw.We will be updating this Facilitator's Guide for ACESSE Resource A with the most up-to-date information about this resource over time. If you encounter problems with this resource, you can contact us at: STEMteachingtools@uw.edu

The NRC Framework for K-12 Science Education and the resulting Next Generation Science Standards focus on an integrated three-dimensional view of science learning in which students develop understanding of core ideas of science and crosscutting concepts in the context of engaging in science and engineering practices.How is assessing three-dimensional science learning different than how we have thought of science learning in the past? How can we design assessment tasks that elicit student’s current understanding of specific aspects of the disciplinary core ideas, science and engineering practices, and crosscutting concepts in order to shape future instruction? In this workshop, participants will learn how to interpret and design cognitive formative assessment to fit a three-dimensional view of learning.This resource originates from a series of PD sessions on 3D formative assessment developed and provided by Katie Van Horne, Shelley Stromholt, Bill Penuel, and Philip Bell. It has been improved through a collaboration in the ACESSE project with science education experts from 13 states. Please cite this resource as follows:Stromholt, S., Van Horne, K., Bell, P., Penuel, W. R., Neill, T. & Shaw, S. (2017). How to Assess Three-Dimensional Learning in Your Classroom: Building Assessment Tasks that Work. [OER Professional Development Session from the ACESSE Project] Retrieved from http://stemteachingtools.org/pd/SessionB

How can science instruction be meaningfullyconnected to the out-of-school lives of students? In this professional development, we will consider how to design formative assessments that build on learners’ interest and knowledge, promoting equity and social justice in the process. The material for this resource comes from a series of PD sessions on formative assessment originally developed by Philip Bell and Shelley Stromholt.We will be updating this Facilitator's Guide for ACESSE Resource C with the most up to date information about this resource over time. If you encounter problesm with this resources, you can contact us at STEMteachingtools@uw.eduThis resource was refined through a 13-state collaboration to make the resource more broadly useful. If you choose to adapt these materials, please attribute the source and that it was work funded by the National Science Foundation (NSF).

Abstract: This session provides a step-by-step process to support participants as they design a 3D assessment task for the science classroom. Along the way, they learn how to define 3D learning performances for specific lessons—and how to use a range of tools to support their assessment design work. A key goal of the session activity is to improve the connection of intended learning goals to assessment practices. Participants build their 3D assessment design capacity by designing and workshopping tasks—before piloting them in their classrooms. The approaches learned in this workshop can be used with any curricula, at any grade level, and across all subjects of science. 

This pair of workshops is designed to introduce you to the process of selecting phenomena that can anchor an entire unit that supports students’ 3D science learning or that can serve as a basis for a multi-component assessment task. This resource can also be used by individuals wanting to refine their teaching practice around phenomena based instruction. You may have heard a lot about phenomena, but you may also be wondering what exactly they are, and whether using phenomena is any different from how teachers teach today already.This learning experience will help you:Explain to a peer the role of phenomena and design challenges in science teaching, with a particular focus on equity and justice. Generate working definitions of phenomena, design challenges, and disciplinary core ideas. Identify phenomena related to a bundle of three-dimensional standards. Experience how phenomena can be introduced at the start of a unit, in order to launch a student-driven series of questions.

Overview: In this workshop, we will build our capacity to identify the range of intellectual resources students use as they make sense of phenomena. We will first explore how equity and justice relate to culture-based approaches to pedagogy—and then focus on how to identify and leverage the resources students use in moments of sensemaking. This resource can also be used by individuals wanting to learn how equity involves promoting the rightful presence of all students across scales of justice, desettling inequities, and supporting expansive learning pathways. This workshop provides participants with an opportunity to explore important theoretical ideas by exploring examples of how learners engage in diverse sense-making. Participants will learn about some of the challenges that less expansive learning environments can cause for learners from non-dominant communities. This resource is estimated to take between 161-268 minutes (2 ⅔ - 4 ¾ hours), depending on the choices of the facilitator in scenario selection.

ACES (Academic, Career & Employability Skills) The goal of ACES is to ensure that Adult Basic Education (ABE) programs are able to provide effective contextualized instruction integrating post-secondary education and training readiness, employability skills, and career readiness at all levels. The Transitions Integration Framework (TIF) is the cornerstone of ACES. It was designed to provide ABE programs and instructors with guidance on the effective integration of transitions skills into instruction at all levels of ABE. The TIF defines the academic, career, and employability skills essential for adult learners to successfully transition to post-secondary education, career training, the workplace, and community involvement. The ACES Resource Library contains tools to help ABE practitioners incorporate the TIF skills into lessons and instructional settings and provides materials that can be used directly with adult learners.

This module examines the structures, systems and processes that should be established in order for a school to be effective. The expectation of all stakeholders in the school environment is that an effective school will be able to provide an education of progressively higher quality for all learners. The premise of this module is that effective education is built upon, and grounded in, policies, principles and values. The acts, regulations and policies of national and provincial governments have created the framework and values within which the schools organisational systems, and physical and financial resources should be managed.

This module is about the management of teaching and learning. We begin by exploring the school as a learning organization and promoting a culture of learning and teaching, which is dedicated to constant renewal and improvement. We will also tackle the issue of context, and will look at the ways in which the physical environment of the school impacts on the quality of learning. This leads us into an exploration of the challenges of effectively planning, implementing, monitoring and evaluating a curriculum that needs constantly to change and reinvent itself in line with the changing needs of a changing society. In particular, we focus on what is required to improve teaching and learning in order to produce enhanced learner outcomes. This paves the way for the identification and development of the skills and processes needed to lead and manage effective teaching and learning.

An essential and practical text for both students and teachers of AC electrical circuit analysis, this text picks up where the companion DC electric circuit analysis text leaves off. Beginning with basic sinusoidal functions, ten chapters cover topics including series, parallel, and series-parallel RLC circuits. Numerous theorems and analysis techniques are examined including superposition, Thévenin's theorem, nodal and mesh analysis, maximum power transfer and more. Other important topics include AC power, resonance, Bode plots and an introduction to three-phase systems. Each chapter begins with a set of chapter objectives and includes a summary and review questions. A total of over 500 end-of-chapter exercises are included. A companion laboratory manual is available.

El objetivo es que aprendas en cuatro pasos como se realiza una búsqueda básica en la base de datos ACM

Students will be able to ask and answer questions about key details in a text. Students will be able to compare and contrast the adventures and experiences of characters in stories.