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=Definition=
=Definition=
Learning objectives are statements that define the expected goal of a curriculum, course, lesson or activity interms of demonstrable skills or knowledge that will be acquired by a student as a result of instruction.  
Learning objectives are statements that define the expected goal of a curriculum, course, lesson or activity in terms of demonstrable skills or knowledge that will be acquired by a student as a result of instruction. Learning objectives can be tied to [[competence map]]s
Also known as : Instructional objectives, learning outcomes, learning goals.
Also known as : '''Instructional objectives''', '''learning outcomes''', '''learning goals'''.
 
Learning outputs, i.e. student productions are different. They allow follow-up (e.g. formative feedback) and measuring if learning objectives are met.


See also:  
See also:  
*[[Learning_level#Blooms_taxonomy | Bloom's taxonomy]]
* [[Learning_level#Blooms_taxonomy | Bloom's taxonomy]]
* [[Competence map]]


=Introduction=  
=Introduction=  
Line 11: Line 14:
The definition of learning objectives is (or should be) the foundation of any instructional design. They are integral determining factor of [[Pedagogic strategy | strategies]] and [[Instructional design model]] and [[Instructional design method | methods]], [[Pedagogical scenario | pedagocial scenarios]] and [[Lesson planning | lesson plans]].
The definition of learning objectives is (or should be) the foundation of any instructional design. They are integral determining factor of [[Pedagogic strategy | strategies]] and [[Instructional design model]] and [[Instructional design method | methods]], [[Pedagogical scenario | pedagocial scenarios]] and [[Lesson planning | lesson plans]].


=Problems defining learning objectives=
= Defining learning objectives=
 
Learning objectives when attained should be ''observable'' behaviours or actions.
 
Mesurement of learning outcomes is strongly influenced by behaviorist learning psychology and educational models, in particular [[learning level|Blooms taxonomy]].
 
Criticism of this approach argue that some [[learning type]]s, e.g. [[problem solving]] require more complex proof of learning than typical exam texts. Some of that criticism has been addressed by Krathwohl's Revision of Blooms's Taxononmy <ref> Krathwohl, D. R. (2002). A Revision of Bloom’s Taxonomy: An Overview. Theory Into Practice, 41(4), 212–218. https://doi.org/10.1207/s15430421tip4104_2</ref>. Other propositions were formulated by Jonassen, of which we present one version below. Finally, there is a strong relationship with competency-based education based on [[competence map|competence frameworks or maps]].


Learning objectives when attained should be ''observable'' behaviours or actions. Words used to define learning objectives are often teacher centered and ambiguous.  
== Verbs for defining learning objectives==
 
Words used to define learning objectives are often teacher centered and ambiguous.  


E.g. ''Students will know the seven original member countries of the European Union and their capitals.''  
E.g. ''Students will know the seven original member countries of the European Union and their capitals.''  
Line 21: Line 32:
E.g. ''Students will be able to list 5 countries in Europe and their capitals''.
E.g. ''Students will be able to list 5 countries in Europe and their capitals''.


== Verbs for defining learning objectives==
Verbs presented in the following table are lists of verbs that correspond to the cognitive domains within [[Learning_level#Blooms_taxonomy | Bloom's Taxonomy]] from CyberCampus's [http://www.radiojames.com/ObjectivesBuilder/data/downloads/WritingObjectives.pdf Tips for writing performance-based objectives].
Verbs presented in the following table are lists of verbs that correspond to the cognitive domains within [[Learning_level#Blooms_taxonomy | Bloom's Taxonomy]] from CyberCampus's [http://www.radiojames.com/ObjectivesBuilder/data/downloads/WritingObjectives.pdf Tips for writing performance-based objectives].


[[image:cognitive_domain_verbs.png|frame|none| Verbs for defining learning objecitves according to Bloom's taxonomy]]
[[image:cognitive_domain_verbs.png|frame|none| Verbs for defining learning objecitves according to Bloom's taxonomy]]
''Source'':Kemp, J.E., Morrison, G.R., & Ross, S.M. (1998). Designing effective instruction, 2nd ed. Upper Saddle River, NJ: Merrill
''Source'':Kemp, J.E., Morrison, G.R., & Ross, S.M. (1998). Designing effective instruction, 2nd ed. Upper Saddle River, NJ: Merrill
== Jonassen and Tessmer taxonomy of learning outcomes ==
Jonassen and Tessmer (1996) created an Outcomes-Based Taxonomy for the Design,Evaluation, and Research of Instructional System. Tationale for this taxonomy was based on the observation that more traditional instructional design models do not include all possible learning outcomes. In particular, metacognitive aspects and higher order problem solving skills are missing. The authors used multiple sources, e.g. trainign and design textbooks, research on existing taxonomies, learning outcomes found in articles in instructional research journals, and texts in educational psychology.
Below we reproduce the table presented in a preprint that somehow got many years ago, since we cannot find the original. Since the ''Training Research Journal'' journal is probably dead since we cannot find any online trace, we assume that we could reproduce these rather large tables.
<table class="wikitable">
<tr>
  <td>
  <p>No.</p>
  </td>
  <td>
  <p>Outcome</p>
  </td>
  <td>
  <p>Class</p>
  </td>
  <td>
  <p>Measurement</p>
  </td>
  <td>
  <p>Criteria</p>
  </td>
</tr>
<tr>
  <td>
  <p>1.1</p>
  </td>
  <td>
  <p>Cued propositional information</p>
  </td>
  <td>
  <p>Declarative knowledge</p>
  </td>
  <td>
  <p>Recognition</p>
  </td>
  <td>
  <p>Accuracy</p>
  </td>
</tr>
<tr>
  <td>
  <p>1.2</p>
  </td>
  <td>
  <p>Propositional information</p>
  </td>
  <td>
  <p>Declarative knowledge</p>
  </td>
  <td>
  <p>Recall</p>
  </td>
  <td>
  <p>Accuracy</p>
  </td>
</tr>
<tr>
  <td>
  <p>1.3</p>
  </td>
  <td>
  <p>Acquiring bodies of information</p>
  </td>
  <td>
  <p>Declarative knowledge</p>
  </td>
  <td>
  <p>Paraphrase (gist)</p>
  </td>
  <td>
  <p>Thematic fidelity</p>
  </td>
</tr>
<tr>
  <td>
  <p>2.1</p>
  </td>
  <td>
  <p>Information
  networking</p>
  </td>
  <td>
  <p>Structural knowledge (declarative)</p>
  </td>
  <td>
  <p>Relationships/ Similarity judgements</p>
  </td>
  <td>
  <p>Correctness/ Consistency/ Completeness</p>
  </td>
</tr>
<tr>
  <td>
  <p>2.2</p>
  </td>
  <td>
  <p>Semantic mapping/ conceptual networking</p>
  </td>
  <td>
  <p>Structural knowledge (conceptual)</p>
  </td>
  <td>
  <p>Concept mapping</p>
  </td>
  <td>
  <p>Completeness/ Embeddedness/
  Integratedness</p>
  </td>
</tr>
<tr>
  <td>
  <p>2.3</p>
  </td>
  <td>
  <p>Structural mental models</p>
  </td>
  <td>
  <p>Structural knowledge</p>
  </td>
  <td>
  <p>Talk backs/ Pathfinder nets</p>
  </td>
  <td>
  <p>Congruence with experts</p>
  </td>
</tr>
<tr>
  <td>
  <p>3.1</p>
  </td>
  <td>
  <p>Forming
  concepts</p>
  </td>
  <td>
  <p>Cognitive components/ structural
  knowledge</p>
  </td>
  <td>
  <p>Identifying/classifying New instances</p>
  </td>
  <td>
  <p>Generalization discrimination</p>
  </td>
</tr>
<tr>
  <td>
  <p>3.2</p>
  </td>
  <td>
  <p>Reasoning from concepts</p>
  </td>
  <td>
  <p>Cognitive components</p>
  </td>
  <td>
  <p>Drawing conclusions, Recognizing
  entailments</p>
  </td>
  <td>
  <p>Logic of inclusion/inference</p>
  </td>
</tr>
<tr>
  <td>
  <p>3.3</p>
  </td>
  <td>
  <p>Using
  procedures</p>
  </td>
  <td>
  <p>Cognitive components</p>
  </td>
  <td>
  <p>Performing procedures</p>
  </td>
  <td>
  <p>Accuracy/speed/automaticity</p>
  </td>
</tr>
<tr>
  <td>
  <p>3.4</p>
  </td>
  <td>
  <p>Applying
  rules</p>
  </td>
  <td>
  <p>Cognitive components</p>
  </td>
  <td>
  <p>Demonstrating algorithms/ Procedures</p>
  </td>
  <td>
  <p>Accuracy/speed/automaticity</p>
  </td>
</tr>
<tr>
  <td>
  <p>3.5</p>
  </td>
  <td>
  <p>Applying principles</p>
  </td>
  <td>
  <p>Cognitive components</p>
  </td>
  <td>
  <p>Drawing implications (cause, conclusion,
  results)</p>
  </td>
  <td>
  <p>Misconceptions/errors</p>
  </td>
</tr>
<tr>
  <td>
  <p>3.6</p>
  </td>
  <td>
  <p>Complex procedures (convergent problem solving)</p>
  </td>
  <td>
  <p>Cognitive components</p>
  </td>
  <td>
  <p>Selecting/using cognitive com</p>
  </td>
  <td>
  <p>p Effectiveness/efficiency of solution
  strategy</p>
  </td>
</tr>
<tr>
  <td>
  <p>4.1</p>
  </td>
  <td>
  <p>Identifying/ defining problem</p>
  </td>
  <td>
  <p>Situated problem solving</p>
  </td>
  <td>
  <p>Describing problem space</p>
  </td>
  <td>
  <p>Absence of pre-defined solution/real
  problem</p>
  </td>
</tr>
<tr>
  <td>
  <p>4.2</p>
  </td>
  <td>
  <p>Decomposing problem/ Integrating cognitive
  components</p>
  </td>
  <td>
  <p>Situated problem solving</p>
  </td>
  <td>
  <p>Identifying issues/ operations/subproblems</p>
  </td>
  <td>
  <p>Correct operations</p>
  </td>
</tr>
<tr>
  <td>
  <p>4.3</p>
  </td>
  <td>
  <p>Hypothesizing solutions</p>
  </td>
  <td>
  <p>Situated problem solving</p>
  </td>
  <td>
  <p>Generating hypotheses/ solution options</p>
  </td>
  <td>
  <p>Originality/variety/efficiency</p>
  </td>
</tr>
<tr>
  <td>
  <p>4.4</p>
  </td>
  <td>
  <p>Evaluating solutions</p>
  </td>
  <td>
  <p>Situated problem solving</p>
  </td>
  <td>
  <p>Assessing hypotheses/ solution options</p>
  </td>
  <td>
  <p>Congruence with problem space/elegance</p>
  </td>
</tr>
<tr>
  <td>
  <p>5.1</p>
  </td>
  <td>
  <p>Mental
  modeling</p>
  </td>
  <td>
  <p>Knowledge complexes</p>
  </td>
  <td>
  <p>Talk backs/teachbacks</p>
  </td>
  <td>
  <p>Congruence with experts</p>
  </td>
</tr>
<tr>
  <td>
  <p>6.1</p>
  </td>
  <td>
  <p>Generating new interpretations</p>
  </td>
  <td>
  <p>Ampliative
  skills</p>
  </td>
  <td>
  <p>Stating/defending/ rationalizing</p>
  </td>
  <td>
  <p>Process relevance</p>
  </td>
</tr>
<tr>
  <td>
  <p>6.2</p>
  </td>
  <td>
  <p>Constructing/ Applying arguments</p>
  </td>
  <td>
  <p>Ampliative
  skills</p>
  </td>
  <td>
  <p>Stating/defending/ rationalizing</p>
  </td>
  <td>
  <p>Compellingness</p>
  </td>
</tr>
<tr>
  <td>
  <p>6.3</p>
  </td>
  <td>
  <p>Analogizing</p>
  </td>
  <td>
  <p>Ampliative
  skills</p>
  </td>
  <td>
  <p>Analogies</p>
  </td>
  <td>
  <p>Correctness/plausibility</p>
  </td>
</tr>
<tr>
  <td>
  <p>6.4</p>
  </td>
  <td>
  <p>Inferencing</p>
  </td>
  <td>
  <p>Ampliative
  skills</p>
  </td>
  <td>
  <p>Inferring from knowns/ drawing
  implications</p>
  </td>
  <td>
  <p>Reasonableness/plausibility</p>
  </td>
</tr>
<tr>
  <td>
  <p>7.1</p>
  </td>
  <td>
  <p>Articulating content (prior knowledge)</p>
  </td>
  <td>
  <p>Self
  knowledge</p>
  </td>
  <td>
  <p>Explaining/differentiating/ integrating performance</p>
  </td>
  <td>
  <p>Accuracy</p>
  </td>
</tr>
<tr>
  <td>
  <p>7.2</p>
  </td>
  <td>
  <p>Articulating sociocultural
  knowledge</p>
  </td>
  <td>
  <p>Self
  knowledge</p>
  </td>
  <td>
  <p>Explaining/differentiating/ integrating performance</p>
  </td>
  <td>
  <p>Congruence of behavior wit</p>
  <p>mores</p>
  </td>
</tr>
<tr>
  <td>
  <p>7.3</p>
  </td>
  <td>
  <p>Articulating personal strategies
  (strategic knowledge)</p>
  </td>
  <td>
  <p>Self knowledge (metacognition)</p>
  </td>
  <td>
  <p>Explaining/think aloud</p>
  </td>
  <td>
  <p>Congruence with work behavior</p>
  </td>
</tr>
<tr>
  <td>
  <p>7.4</p>
  </td>
  <td>
  <p>Articulating cognitive prejudices/
  weaknesses</p>
  </td>
  <td>
  <p>Reflective self knowledge</p>
  </td>
  <td>
  <p>Explaining/differentiating/ integrating performance</p>
  </td>
  <td>
  <p>Triangulation of personal/ social feedback</p>
  </td>
</tr>
<tr>
  <td>
  <p>8.1</p>
  </td>
  <td>
  <p>Assessing task difficulty</p>
  </td>
  <td>
  <p>Executive
  control</p>
  </td>
  <td>
  <p>Problem assessment/ think aloud</p>
  </td>
  <td>
  <p>Accuracy</p>
  </td>
</tr>
<tr>
  <td>
  <p>8.2</p>
  </td>
  <td>
  <p>Goal
  setting</p>
  </td>
  <td>
  <p>Executive
  control</p>
  </td>
  <td>
  <p>Self report/think aloud</p>
  </td>
  <td>
  <p>Problem/process relevance</p>
  </td>
</tr>
<tr>
  <td>
  <p>8.3</p>
  </td>
  <td>
  <p>Allocating cognitive resources</p>
  </td>
  <td>
  <p>Executive
  control</p>
  </td>
  <td>
  <p>Self report/think aloud</p>
  </td>
  <td>
  <p>Problem/process relevance</p>
  </td>
</tr>
<tr>
  <td>
  <p>8.4</p>
  </td>
  <td>
  <p>Assessing prior knowledge</p>
  </td>
  <td>
  <p>Executive
  control</p>
  </td>
  <td>
  <p>Self report/think aloud</p>
  </td>
  <td>
  <p>Problem/process relevance</p>
  </td>
</tr>
<tr>
  <td>
  <p>8.5</p>
  </td>
  <td>
  <p>Assessing progress/error checking</p>
  </td>
  <td>
  <p>Executive
  control</p>
  </td>
  <td>
  <p>Self report/think aloud</p>
  </td>
  <td>
  <p>Process completion/think aloud</p>
  </td>
</tr>
<tr>
  <td>
  <p>9.1</p>
  </td>
  <td>
  <p>Exerting
  effort</p>
  </td>
  <td>
  <p>Motivation (conation)</p>
  </td>
  <td>
  <p>Observation/self report</p>
  </td>
  <td>
  <p>Intensity</p>
  </td>
</tr>
<tr>
  <td>
  <p>9.2</p>
  </td>
  <td>
  <p>Persisting on task (tenacity)</p>
  </td>
  <td>
  <p>Motivation (conation)</p>
  </td>
  <td>
  <p>Observation/self report</p>
  </td>
  <td>
  <p>Time on task</p>
  </td>
</tr>
<tr>
  <td>
  <p>9.3</p>
  </td>
  <td>
  <p>Engaging intentionally (willingness)</p>
  </td>
  <td>
  <p>Motivation (conation)</p>
  </td>
  <td>
  <p>Observation/self report</p>
  </td>
  <td>
  <p>Mindfulness</p>
  </td>
</tr>
<tr>
  <td>
  <p>10.1</p>
  </td>
  <td>
  <p>Making
  choices</p>
  </td>
  <td>
  <p>attitude</p>
  </td>
  <td>
  <p>Choice behavior/attitude scale</p>
  </td>
  <td>
  <p>Personal containment</p>
  </td>
</tr>
</table>
"Class" is defined as a kind of [[learning type]].
<table class="wikitable">
<tr>
  <td>
  <p>Construct Class</p>
  </td>
  <td>
  <p>Characteristics</p>
  </td>
  <td>
  <p>Differences from related constructs</p>
  </td>
  <td>
  <p>Learning payoffs</p>
  </td>
</tr>
<tr>
  <td>
  <p>Ampliative skills</p>
  </td>
  <td>
  <p>Uses rules of logic and imagination to draw
  conclusions, explain implications, imagine possibilities.</p>
  </td>
  <td>
  <p><i>Problem solving </i>is acquisition of solution method or heuristics.</p>
  <p>Ampliation is acquisition of information
  extension skills.</p>
  </td>
  <td>
  <p>Learners can extend and integrate knowledge on their
  own. Can apply knowledge to novel situations.</p>
  </td>
</tr>
<tr>
  <td>
  <p>Structural knowledge</p>
  </td>
  <td>
  <p>A thematic set of propositions, images, concepts, or
  rules interconnected by various types of relationships.</p>
  </td>
  <td>
  <p><i>Declarative knowledge</i>, <i>concepts and rules </i>may involve the
  acquisition of individual outcomes without multiple relationships between
  them.</p>
  </td>
  <td>
  <p>Learners can better recall and transfer acquired
  facts and skills. Improves troubleshooting skills. Facilitates ampliation
  (extension) of learning.</p>
  </td>
</tr>
<tr>
  <td>
  <p>Self-knowledge</p>
  </td>
  <td>
  <p>Uses reflection and self-examination skills to
  identify cognitive and affective strengths and weaknesses.</p>
  </td>
  <td>
  <p><i>Executive control or learning strategies</i></p>
  <p>Regulation of cognitive or affective
  states. Self-knowledge stresses awareness of them.</p>
  </td>
  <td>
  <p>Allows learner to self-correct learning
  and performance. Removes emotional impediments. Develops self- regulation
  &amp; distributed cognition (metacognition).</p>
  </td>
</tr>
<tr>
  <td>
  <p>Situated problem solving</p>
  </td>
  <td>
  <p>Emphasizes problem solving in authentic
  performance contexts. Identifies the suboutcomes of problem solving
  (identication, decomposition, etc.)</p>
  </td>
  <td>
  <p><i>Complex procedures </i>have a definable set of steps or
  solutions. Situated problem solving proceeds by heuristics with multiple
  “correct” solutions.</p>
  </td>
  <td>
  <p>Facilitates
  problem solving transfer to workplace contexts Enables diagnosis of specific
  problem solving failures.</p>
  </td>
</tr>
<tr>
  <td>
  <p>Executive control</p>
  </td>
  <td>
  <p>Focuses upon controlling internal learning and
  problem solving processes.</p>
  </td>
  <td>
  <p><i>Motivation </i>focuses upon control of conative and affective
  states during learning and problem solving, not cognitive.</p>
  </td>
  <td>
  <p>Develops problem solving efficiency. Improves
  teamwork and social learning.</p>
  </td>
</tr>
<tr>
  <td>
  <p>Motivation</p>
  </td>
  <td>
  <p>Involves the willful manipulation of task
  attention. effort, and enthusiasm. Has distinct suboutcomes of willigness,
  persistence, and effort.</p>
  </td>
  <td>
  <p><i>Attitudes </i>are value-based and stable propensties to act or
  choose.</p>
  <p>Motivation has will-based and transient
  states of feeling or exerting.</p>
  </td>
  <td>
  <p>Enhances learning and performance
  effectiveness in all outcome domains. Develops self-regulated learning
  (metacognition).</p>
  </td>
</tr>
</table>


=Tools=
=Tools=
Line 65: Line 871:


=References=
=References=
== Cited with footnotes ==
<references/>
== Other ==


* Anderson, L. W., Krathwohl, D. R., Airasian, R. W., Cruikshank, K. A., Mayer, R. E., Pintrich, P. R., Raths, J. & Wittrock, M. C. (2001). A Taxonomy for Learning, Teaching, and Assessing. New York, NY: Addison Wesley Longman, Inc.  
* Anderson, L. W., Krathwohl, D. R., Airasian, R. W., Cruikshank, K. A., Mayer, R. E., Pintrich, P. R., Raths, J. & Wittrock, M. C. (2001). A Taxonomy for Learning, Teaching, and Assessing. New York, NY: Addison Wesley Longman, Inc.  

Latest revision as of 10:17, 18 April 2019

Definition

Learning objectives are statements that define the expected goal of a curriculum, course, lesson or activity in terms of demonstrable skills or knowledge that will be acquired by a student as a result of instruction. Learning objectives can be tied to competence maps Also known as : Instructional objectives, learning outcomes, learning goals.

Learning outputs, i.e. student productions are different. They allow follow-up (e.g. formative feedback) and measuring if learning objectives are met.

See also:

Introduction

The definition of learning objectives is (or should be) the foundation of any instructional design. They are integral determining factor of strategies and Instructional design model and methods, pedagocial scenarios and lesson plans.

Defining learning objectives

Learning objectives when attained should be observable behaviours or actions.

Mesurement of learning outcomes is strongly influenced by behaviorist learning psychology and educational models, in particular Blooms taxonomy.

Criticism of this approach argue that some learning types, e.g. problem solving require more complex proof of learning than typical exam texts. Some of that criticism has been addressed by Krathwohl's Revision of Blooms's Taxononmy [1]. Other propositions were formulated by Jonassen, of which we present one version below. Finally, there is a strong relationship with competency-based education based on competence frameworks or maps.

Verbs for defining learning objectives

Words used to define learning objectives are often teacher centered and ambiguous.

E.g. Students will know the seven original member countries of the European Union and their capitals.

Formulations such as "Student will understand, comprehend, know" are problematic in that one cannot observe knowing or comprehension. Learning objectives should be formulated in a way that specifies how learning will be observed or measured and are thus intertwined with evaluation methods. Words that describe what the student will do to show that he or she understands are more useful.

E.g. Students will be able to list 5 countries in Europe and their capitals.

Verbs presented in the following table are lists of verbs that correspond to the cognitive domains within Bloom's Taxonomy from CyberCampus's Tips for writing performance-based objectives.

Verbs for defining learning objecitves according to Bloom's taxonomy

Source:Kemp, J.E., Morrison, G.R., & Ross, S.M. (1998). Designing effective instruction, 2nd ed. Upper Saddle River, NJ: Merrill

Jonassen and Tessmer taxonomy of learning outcomes

Jonassen and Tessmer (1996) created an Outcomes-Based Taxonomy for the Design,Evaluation, and Research of Instructional System. Tationale for this taxonomy was based on the observation that more traditional instructional design models do not include all possible learning outcomes. In particular, metacognitive aspects and higher order problem solving skills are missing. The authors used multiple sources, e.g. trainign and design textbooks, research on existing taxonomies, learning outcomes found in articles in instructional research journals, and texts in educational psychology.

Below we reproduce the table presented in a preprint that somehow got many years ago, since we cannot find the original. Since the Training Research Journal journal is probably dead since we cannot find any online trace, we assume that we could reproduce these rather large tables.

No.

Outcome

Class

Measurement

Criteria

1.1

Cued propositional information

Declarative knowledge

Recognition

Accuracy

1.2

Propositional information

Declarative knowledge

Recall

Accuracy

1.3

Acquiring bodies of information

Declarative knowledge

Paraphrase (gist)

Thematic fidelity

2.1

Information networking

Structural knowledge (declarative)

Relationships/ Similarity judgements

Correctness/ Consistency/ Completeness

2.2

Semantic mapping/ conceptual networking

Structural knowledge (conceptual)

Concept mapping

Completeness/ Embeddedness/ Integratedness

2.3

Structural mental models

Structural knowledge

Talk backs/ Pathfinder nets

Congruence with experts

3.1

Forming concepts

Cognitive components/ structural knowledge

Identifying/classifying New instances

Generalization discrimination

3.2

Reasoning from concepts

Cognitive components

Drawing conclusions, Recognizing entailments

Logic of inclusion/inference

3.3

Using procedures

Cognitive components

Performing procedures

Accuracy/speed/automaticity

3.4

Applying rules

Cognitive components

Demonstrating algorithms/ Procedures

Accuracy/speed/automaticity

3.5

Applying principles

Cognitive components

Drawing implications (cause, conclusion, results)

Misconceptions/errors

3.6

Complex procedures (convergent problem solving)

Cognitive components

Selecting/using cognitive com

p Effectiveness/efficiency of solution strategy

4.1

Identifying/ defining problem

Situated problem solving

Describing problem space

Absence of pre-defined solution/real problem

4.2

Decomposing problem/ Integrating cognitive components

Situated problem solving

Identifying issues/ operations/subproblems

Correct operations

4.3

Hypothesizing solutions

Situated problem solving

Generating hypotheses/ solution options

Originality/variety/efficiency

4.4

Evaluating solutions

Situated problem solving

Assessing hypotheses/ solution options

Congruence with problem space/elegance

5.1

Mental modeling

Knowledge complexes

Talk backs/teachbacks

Congruence with experts

6.1

Generating new interpretations

Ampliative skills

Stating/defending/ rationalizing

Process relevance

6.2

Constructing/ Applying arguments

Ampliative skills

Stating/defending/ rationalizing

Compellingness

6.3

Analogizing

Ampliative skills

Analogies

Correctness/plausibility

6.4

Inferencing

Ampliative skills

Inferring from knowns/ drawing implications

Reasonableness/plausibility

7.1

Articulating content (prior knowledge)

Self knowledge

Explaining/differentiating/ integrating performance

Accuracy

7.2

Articulating sociocultural knowledge

Self knowledge

Explaining/differentiating/ integrating performance

Congruence of behavior wit

mores

7.3

Articulating personal strategies (strategic knowledge)

Self knowledge (metacognition)

Explaining/think aloud

Congruence with work behavior

7.4

Articulating cognitive prejudices/ weaknesses

Reflective self knowledge

Explaining/differentiating/ integrating performance

Triangulation of personal/ social feedback

8.1

Assessing task difficulty

Executive control

Problem assessment/ think aloud

Accuracy

8.2

Goal setting

Executive control

Self report/think aloud

Problem/process relevance

8.3

Allocating cognitive resources

Executive control

Self report/think aloud

Problem/process relevance

8.4

Assessing prior knowledge

Executive control

Self report/think aloud

Problem/process relevance

8.5

Assessing progress/error checking

Executive control

Self report/think aloud

Process completion/think aloud

9.1

Exerting effort

Motivation (conation)

Observation/self report

Intensity

9.2

Persisting on task (tenacity)

Motivation (conation)

Observation/self report

Time on task

9.3

Engaging intentionally (willingness)

Motivation (conation)

Observation/self report

Mindfulness

10.1

Making choices

attitude

Choice behavior/attitude scale

Personal containment

"Class" is defined as a kind of learning type.

Construct Class

Characteristics

Differences from related constructs

Learning payoffs

Ampliative skills

Uses rules of logic and imagination to draw conclusions, explain implications, imagine possibilities.

Problem solving is acquisition of solution method or heuristics.

Ampliation is acquisition of information extension skills.

Learners can extend and integrate knowledge on their own. Can apply knowledge to novel situations.

Structural knowledge

A thematic set of propositions, images, concepts, or rules interconnected by various types of relationships.

Declarative knowledge, concepts and rules may involve the acquisition of individual outcomes without multiple relationships between them.

Learners can better recall and transfer acquired facts and skills. Improves troubleshooting skills. Facilitates ampliation (extension) of learning.


Self-knowledge

Uses reflection and self-examination skills to identify cognitive and affective strengths and weaknesses.

Executive control or learning strategies

Regulation of cognitive or affective states. Self-knowledge stresses awareness of them.

Allows learner to self-correct learning and performance. Removes emotional impediments. Develops self- regulation & distributed cognition (metacognition).


Situated problem solving

Emphasizes problem solving in authentic performance contexts. Identifies the suboutcomes of problem solving (identication, decomposition, etc.)

Complex procedures have a definable set of steps or solutions. Situated problem solving proceeds by heuristics with multiple “correct” solutions.

Facilitates problem solving transfer to workplace contexts Enables diagnosis of specific problem solving failures.


Executive control

Focuses upon controlling internal learning and problem solving processes.

Motivation focuses upon control of conative and affective states during learning and problem solving, not cognitive.

Develops problem solving efficiency. Improves teamwork and social learning.


Motivation

Involves the willful manipulation of task attention. effort, and enthusiasm. Has distinct suboutcomes of willigness, persistence, and effort.

Attitudes are value-based and stable propensties to act or choose.

Motivation has will-based and transient states of feeling or exerting.

Enhances learning and performance effectiveness in all outcome domains. Develops self-regulated learning (metacognition).

Tools

Links

Introductions for "Bloom"-type definitions

All of the following links offer similar advice. That doesn't mean that there are no alternatives. For example, in some pedagogies, the learning objectives also could be described in terms of a product that implicitly defines skills to be learned.


Examples

References

Cited with footnotes

  1. Krathwohl, D. R. (2002). A Revision of Bloom’s Taxonomy: An Overview. Theory Into Practice, 41(4), 212–218. https://doi.org/10.1207/s15430421tip4104_2

Other

  • Anderson, L. W., Krathwohl, D. R., Airasian, R. W., Cruikshank, K. A., Mayer, R. E., Pintrich, P. R., Raths, J. & Wittrock, M. C. (2001). A Taxonomy for Learning, Teaching, and Assessing. New York, NY: Addison Wesley Longman, Inc.
  • Bloom, B.S. (Ed.) (1956) Taxonomy of Educational Objectives: The classification of educational goals: Handbook I, Cognitive Domain. New York ; Toronto: Longmans, Green.
  • Mager, R.F. (1984). Preparing instructional objectives. (2nd ed.). Belmont, CA: David S. Lake.
  • Kraiger, K., Ford, J. K., & Salas, E. (1993). "Application of cognitive, skill-based, and affective theories of learning outcomes to new methods of training evaluation." Journal of Applied Psychology, 78, 311-328.
  • McKeachie, W. J. (1999). Teaching Tips: Strategies, Research, and Theory for College and University Teachers (10thEdition). Boston, MA: Houghton Mifflin Company.