Presentation is loading. Please wait.

Presentation is loading. Please wait.

Prof. FAHMY A.F.M. ; web site: 1 st ACRICE –W-1 Dec. 2013 By SYSTEMIC.

Published byGriselda Ross Modified over 9 years ago

Similar presentations

Presentation on theme: "Prof. FAHMY A.F.M. ; web site: 1 st ACRICE –W-1 Dec. 2013 By SYSTEMIC."— Presentation transcript:

1 Prof. FAHMY A.F.M. E-mail: afmfahmy42@gmail.com ; web site: www.satlcentral.com afmfahmy42@gmail.comwww.satlcentral.com 1 st ACRICE –W-1 Dec. 2013 By SYSTEMIC ASSESSMENT AS A VEHICLE TO ASSESS STUDENT ACHEIVEMENTS IN CHEMISTRY

2 -Systemic Assessment [SA] has been shown to be highly effective new vehicle in; - Raising the level of students academic achievements. -Increasing equity of students learning outcomes. - Improving students’ ability to learn by enhancing the process of teaching and learning. - Involving the student as an active candidate in this process. INTRODUCTION

3 Why Systemic Assessment (SA) ? [1] It measures the cognitive structure from the cumulative (quantitative) to the interactive and tuned (qualitative). [2] Assess students higher-order thinking skills in which students are required to analyze, synthesize, and evaluate. [3] Measures the students’ ability to correlate between concepts. [4] Enables the students to discover new relation between concepts.

4 [ 5 ] Assess the students in a wide range of Concepts in the course unites. [ 6 ] Measures the systemic ILO,s, beside separate Linear ILO,s. [ 7 ] Develop the ability to think systemically, critically and creatively, and Solve problems. [ 8 ] Being objective, realistic and valid. [ 9 ] Very easily scored.

5 Goal of Systemic Assessment : - The main Goal of SA is to enhance, support and improve both teaching and learning processes via: [ 1] Enable students to make feedback and feed forward during their study of any course materials. [2]Help students in making maximum connections between Chemistry concepts, compounds, and reactions. [3] Enable students to achieve the highest standards they able. [4] Help teachers to use evidence of student learning to assess student achievement against goals and standards of the courses and programs...

6 Types Systemic Assessment Questions: [SAQ,s] 1- Systemic Multiple Choice Questions [SMCQ,s]. 2-Systemic True, False Questions [STFQ,s]. 3-Systemic Matching Questions [SMQ,s]. 4-Systemic Sequencing Questions [SSQ,s]. 5-Systemic Synthesis Questions [SSynQ,s]. 6- Systemic Analysis Questions [SAnQ,s].

7 Type-1: Systemic Multiple Choice Questions (SMCQs) MCQs are the traditional choose one from a list of possible answers. However (SMCQs) are choose of one systemic from a list of possible systemics. Each systemic represents at least three chemical relations.

8 Form (I): Choose From Triangular Systemics: Examples: Q1. The systemic diagram represents the correct chemical relations between (Fe) and its related compounds is one of the following: a)b) c)d) (……) Fe Fe 2 (SO 4 ) 3 FeSO 4 dil H 2 SO 4  H 2 SO 4 / O 2 Fe FeCl 3 Cl 2 /  Zn heat/ air FeCl 2 Fe FeO O2/O2/ Zn dil./H 2 SO 4 FeSO 4 Fe Fe 3 O 4 O2/O2/ CO/ 300  C CO -400-700  C FeO Answer: (d)  Put (  ) in front of the correct systemic diagram

9 Form (II): Choose From Quadrilateral Systemics : P ut (  ) in front of the correct systemic diagram : Q2. The systemic diagram represents the correct chemical relations between (Fe) a nd its related compounds is one of the following: Answer: (b) 

10 Q3. The systemic diagram represents the following reactions sequence. [Substitution –Substitution- Elimination –Addition-] is one of the following: Answer:(a) 

11 Type-2: Systemic True False Questions [STFQ,s] STFQ, s are well suited for testing student comprehension, synthesis and analysis, and require a student to assess whether the systemic is true or false.

12 Put (  ) in front of the correct systemics: Form-I: Choose From Triangular Systemic S : Examples: Na 2 O 2 NaCl Na HCl heat excess (O) 300  C Electrolysis (Molten) NaCl Na 2 O NaCl Na heat/ Air Electrolysis (Solution) Na 2 O NaCl Na HCl heat / excess (O) 300  C Electrolysis Molten)) NaOH NaCl Na HCl H2OH2O Electrolysis Molten)) (a) (b) (c) (d) Answer : True systemics (b, d) (  ); False Systemics (a, c) (X) Q-1:Which of the following systemics are true and which are false:

13 Q 2- Which of the following systemics are true and which are False: C 6 H 5 Cl C 6 H 5 OH C 6 H 6 NaOH/ Fusion Cl 2 /FeCl 3 heat Zn dust/ heat C 6 H 5 Cl C 6 H 5 OH C 6 H 6 NaOH/Aq. heat Cl 2 /FeCl 3 heat Zn dust/ heat C 6 H 5 CHO C6H5CO2H C 6 H 6 KMnO4/Con. H2SO4. CHCl 3 /KOH  Aq.NaOH/  C 6 H 5 CHO C6H5CO2H C 6 H 6 KMnO4/Con.. H2SO4 CHCl 3 /KOH  Soda lime /  (a) ( b) (C) (d) Answer(2) : True systemics (b, d) (  ) ; False Systemics (a, c) (X).

14 Form-II: Choose from Quadrilateral Systemics: Q-3 : Which of the following systemics are true and which are false : Examples: EtOH/ HCl/  LiAlH4 C 6 H 5 CONH 2 C 6 H 5 COOEt C 6 H 5 CH2OH C 6 H 5 COOH Dil.HCl/  eat heat/ PCL5 P 2 O 5/  C 6 H 5 CONH 2 C 6 H 5 COCl C 6 H 5 CN C 6 H 5 COOH Dil.H2SO4 /  NH3/ Heat EtOH/ KOH/  PCl5 C 6 H 5 CONH 2 C 6 H 5 COOEt C 6 H 5 COCl C 6 H 5 COOH Dil.HCl/Hea t NH3/Heat EtOH/Conc. H2SO4 /  P 2 O 5/  C 6 H 5 CONH 2 C 6 H 5 COOEt C 6 H 5 CN C 6 H 5 COOH Dil.HCl/Heat NH3/Heat (c) (d) ) Answer :True systemics (a, d) (  ); False Systemics (b, c) (X ) (a) (b)

15 Form (III): Choose from the pentagonal systemics: Q4. Which of the following systemics are true and which are false: CH 3 CH 2 Br ZN/ Conc. HCl- heat Dil.H 2 SO 4 KMnO4/Conc..H 2 SO 4 Br 2 / hv alco. KOH/heat CH 3 -CH 3 CH2=CH2 CH 3 CH2OH CH3CHO CH 3 CH 2 Br H 2 /Ni KMnO 4 / Conc.H 2 SO 4 HgSO 4 / dil H 2 SO 4 Br 2 / hv aq. KOH CH 3 -CH 3 CH 3 CH 2 OH CH 3 CHO CH 2 =CH 2 Br 2 / hv KMnO 4 / Conc.H 2 SO 4 Zn/ Conc. HCl/  Alco. KOH  dil/H 2 SO 4 CH 3 CH 2 B r CH 3 CH 2 OH CH 3 -CHO CH3CH3 CH 3 -CH 2 OH Her Zn/ Conc. Hal/  H 2 /Ni aq. KOH dil/H 2 SO 4 CH 3 CH 2 Br CH 3 CHO CH 3 -CH 3 CH 2 =CH 2 a) b) c) d) Answer :True systemics (a, c) (  ); False Systemics (b, d) (X)

16 Form I: Matching on Trigonal Systemic Q1 : Choose aliphatic compounds from column (A) and reaction conditions from column (B) to build the systemic diagram incolumn (C): (A) (C) (B) C 2 H 4 CH 3 CH 3 CH 2 OH CH 3 CH 2 Br dil. H 2 SO 4 Conc H 2 SO 4 /180 O C PBr 3 Alc. KOH/∆ Aq. KOH/∆ HBr H 2 /cat. Br 2 /hν Type.3 :SYSTEMIC MATCHING QUESTIONS: [SMQ,s]

17 Answer (1) Answer (2)

18 Form II: Matching on Quadrilateral Systemic: Q 2 : Choose elements and compounds from column (A) and reaction conditions from column (B) to build the systemic diagram in column (C) : (A) (C) (B) Na KOH NaCl Na 2 CO 3 NaNO 3 Na 2 O NaOH K H 2 O O 2 /heat CO 2 HCl Electrolysis HNO 3

19 Form III: Matching on Pentagonal Systemic: Q 3: Choose the aliphatic compounds from column (A) and reaction conditions from column (B) to build the systemic diagram in column (C). (A) (C) (B) CH 3 CH 2 Br CH 3 CHO CH 3 CH 2 OH CH 3 CH 2 =CH 2 CH≡CH Alc. KOH Dil. H 2 SO 4 KMnO 4 /conc. H 2 SO 4 Br 2 /hν Zn/conc. HCl aq. KOH

20 Type-4: Systemic Sequencing Question [SSQ,s] Measure the student's ability to find the relationship between a set of similar items, and then arrange them in a given systemic.

21 Form-I: Sequencing on Quadrilateral systemic: Q 1) Arrange iron and its related compounds in the right Places of the following systemic diagram: [Fe, FeCI 2, FeCI 3, Fe 2 (SO 4 ) 3 ] Air/ heat Mg HCl gas Conc. H 2 SO 4 Fe FeCl2 Mg HCl gas Air/ heat Conc. H2SO4 Fe2 (SO4)3 FeCl3 Answer (1) Examples:

22 Q 2: Arrange the given compounds in the right places of the Systemic diagram: PCl5 P2O5/  Dil.HCl Aq.NH3 [C6H5COCl, C6H5CN, C6H5CONH2, C6H5COOH] PCl5 P2O5/  C 6 H 5 CONH 2 C 6 H 5 COCl C 6 H 5 CN C 6 H 5 COOH Dil.HCl Aq.NH3 Answer (2):

23 Form-II: Sequencing on Pentagonal systemic: Br2 LiAlH4 Conc.H2SO4  Alco.KOH/  HgSO4/dil. H2SO4-60c C2H2C2H2 Br2 LiAlH4 Conc.H2SO4  Alco.KOH HgSO4/dil. H2SO4-60c C2H4 Br2 CH3CHO CH3CH2OH C2H4 Q 3: Arrange the given organic compounds in the right Places of the following systemic diagram: [ Ethylene-Acetylene-Ethanol-1, 2-Dibromoethane, Acetaldehyde ] Answer (3):

24 Type-5: Systemic Synthesis Questions [SSynQ,s] SSynQ,s means synthesize systemic relations. between concepts, facts, issues, Requires the Student to Position concepts or formulas, or events or issues,numbers and their relations in a systemic diagram

25 Form-I: Syntesize Quadrelateral Systemic: Q 1: Draw the systemic diagram illustrating the systemic relations between the following aromatic compounds : [ C 6 H 5 COOC 2 H 5, C 6 H 5 CONH 2,C 6 H 5 COOH, C 6 H 5 COCl ] Answer (1): Dil. HCl/Heat EtOH C 6 H 5 COCl C 6 H 5 COOH C 6 H 5 COOEt C 6 H 5 CONH 2 Aq.NH3 PCl 5

26 Form-II: Syntesize Pentagonal Systemic: Q 2: Draw systemic diagram illustrating the systemic chemical relations between the following aliphatic compounds: [ C 2 H 5 Br,C 2 H 4,C 2 H 6,CH 3 CHO,C 2 H 5 OH] CH 2 = CH 2 Br 2 / hv KMnO 4 /Conc.H 2 SO 4 Zn/ Conc. HCl/  alco. KOH  C 2 H 5 Br CH3CH2OH CH3CHO CH3CH3 Answer (2): Dil.H2SO4/Heat

27 Type-6: Systemic Analysis Questions [SSAnQ,s] Requires the Student to Analyze the given systemic diagram to its concepts or formula, numbers, or events with their relations.

28 Form-I: Analysis of Quadrelateral Systemics : Q1: Analyze the following systemic diagram illustrating the systemic chemical relations between Sodium and its related compounds into Chemical equations : H2O Dil.HC l Na2CO3 NaOH NaCl Na Electrolysis Molt. salt CO2 Answer( 1 ): 2Na + 2H2O 2 NaOH+H2 2NaOH + CO2 Na2CO3 + H2O Na2CO3 + Dil.2HCl 2NaCl +CO2+ H2O 2 NaCl [Molten] 2Na + Cl2

29 Form-II: Analysis of Pentagonal Systemic: Q2: Analyze the following systemic diagram illustrating the systemic chemical relations between Benzene and its related compounds into chemical equations : C6H5 COOH Aq.NaOH/  CH3Cl/AlCl3 Cl2/hv KMnO4/Conc. H2SO4  Sodalime/  C6H5 CHO C6H6 C6H5 CH3 C6H5 CHCl2

30 References: 1-Fahmy, A. F. M., Lagowski, J. J; Systemic Reform in Chemical Education, An International Perspective, J. Chem. Edu., 2003, 80 (9), 1078. 2-Fahmy, A.F. M., Lagowski, J. J., Using SATL Techniques to Assess Student Achievement, [18th ICCE, Istanbul Turkey, 3-8, August 2004]. 3-ahmy, A.F. M., Lagowski, J. J.,” Systemic multiple choice questions (SMCQs) in Chemistry “[19th ICCE, Seoul, South Korea, 12-17 August 2006]. 4- Systemic Multiple Choice Questions in Chemistry. A.F.M. Fahmy, J.J. Lagowski Chemical Education International Vol. 3 (2006/2008) http://www.iupac.org/publications/cei 5 - Systemic assessment as a new tool for assessing students learning In Chemistry using SATL methods: Systemic true false [STFQs] and systemic sequencing [SSQs] question types. A.F.M. Fahmy and J. J. Lagowski AJCE. 2, (2)66-78(2012).

31 8-Writing Multiple Choice Items which Require Comprehensio by Russell A. Dewey, PhD http://www.psychwww.com/selfquiz/aboutq.htm 9-McMillan, J. H. (2001). Classroom assessment Principles and practice for effective instruction. Boston: Allyn and Bacon.. 10 - http://web.utk.edu/~mccay/apdm/match/match_b.htmhttp://web.utk.edu/~mccay/apdm/match/match_b.htm 7-Colleen M. and Bull, J.; Workshop on designing objective test questions. CAA center (http://caacenter.ac.uk/ university of luton, luton UK.http://caacenter.ac.uk/. 6-Exploring novel tools for assessing high School students' meaningful understanding of organic reactions, Vachliotis,T, Salta,K., Vasiliou, P., Tzougraki,C J. Chem. Educ. 88 [3], 337-345.(2011

32

Download ppt "Prof. FAHMY A.F.M. ; web site: 1 st ACRICE –W-1 Dec. 2013 By SYSTEMIC."

Similar presentations

SYSTEMIC ASSESSMENT Workshop Faculty of Medicine Zagazig University PART-I Prof.A.F.M.FAHMY January 2010.

SYSTEMIC ASSESSMENT Workshop Faculty of Medicine Zagazig University PART-I Prof.A.F.M.FAHMY January 2010.
thermal energy + MgO (s)  Mg (s) + O2 (g) ENDOTHERMIC

thermal energy + MgO (s)  Mg (s) + O2 (g) ENDOTHERMIC
SYSTEMIC ASSESSMENT Workshop Faculty of science Menofia University Prof.A.F.M.FAHMY January 2010 PART-II.

SYSTEMIC ASSESSMENT Workshop Faculty of science Menofia University Prof.A.F.M.FAHMY January 2010 PART-II.
Operational Steps for Building a Teaching Unit in Certain Subject by Using the Systemic Approach A. F. M. Fahmy Faculty of Science, Department of Chemistry.

Operational Steps for Building a Teaching Unit in Certain Subject by Using the Systemic Approach A. F. M. Fahmy Faculty of Science, Department of Chemistry.
Single Replacement One element replaces a similar element in a compound A + BX AX + B A replaces B if A and B are similar Metals can replace less reactive.

Single Replacement One element replaces a similar element in a compound A + BX AX + B A replaces B if A and B are similar Metals can replace less reactive.
The process by which one or more substances are changed into one or more different substances CHEMICAL REACTIONS.

The process by which one or more substances are changed into one or more different substances CHEMICAL REACTIONS.
The Principle Law of Conservation of Mass: mass is neither created nor destroyed during any chemical reactions. No new atom is created nor old atom destroyed.

The Principle Law of Conservation of Mass: mass is neither created nor destroyed during any chemical reactions. No new atom is created nor old atom destroyed.
 Introductions.  Requirements of Curriculum Design.  Aspects of Curriculum Design.  Principles of Program Specifications.  Curriculum Design Procedure.

 Introductions.  Requirements of Curriculum Design.  Aspects of Curriculum Design.  Principles of Program Specifications.  Curriculum Design Procedure.
Prof.A.F.M.FAHMY 1 st ACRICE –W-1 Dec.3-4. 2013 By SYSTEMIC ASSESSMENT AS A VEHICLE TO ASSESS STUDENT ACHEIVEMENTS IN CHEMISTRY.

Prof.A.F.M.FAHMY 1 st ACRICE –W-1 Dec By SYSTEMIC ASSESSMENT AS A VEHICLE TO ASSESS STUDENT ACHEIVEMENTS IN CHEMISTRY.
SYSYTEMIC ASSESSMENT AS A NEW TOOL FOR ASSESSING STUDENTS LEARNING IN HETEROCYCLIC CHEMISTRY 13Ibn Sina International Conference Hurghada,Egypt; 14-17.

SYSYTEMIC ASSESSMENT AS A NEW TOOL FOR ASSESSING STUDENTS LEARNING IN HETEROCYCLIC CHEMISTRY 13Ibn Sina International Conference Hurghada,Egypt;
Reaction Types. How do we know what will be produced in a chemical reaction? Recognizing a pattern of reactivity gives a broader understanding than memorizing.

Reaction Types. How do we know what will be produced in a chemical reaction? Recognizing a pattern of reactivity gives a broader understanding than memorizing.
SYSTEMIC APPROACH TO TEACHING AND LEARNING HETEROCYCLIC CHEMISTRY (SATLHC) 2008 A. F. M. Fahmy, M. A. El-Hashash Faculty of Science, Department of Chemistry.

SYSTEMIC APPROACH TO TEACHING AND LEARNING HETEROCYCLIC CHEMISTRY (SATLHC) 2008 A. F. M. Fahmy, M. A. El-Hashash Faculty of Science, Department of Chemistry.
How do chemists know what to mix together to make the products they want??? Substances react with one another in similar ways depending on their chemical.

How do chemists know what to mix together to make the products they want??? Substances react with one another in similar ways depending on their chemical.
Hydrolysis and Neutralization

Hydrolysis and Neutralization
How can we tell if a reaction takes place?. There are four clues: 1. _______________ 2. _______________ 3. _______________ 4. _______________.

How can we tell if a reaction takes place?. There are four clues: 1. _______________ 2. _______________ 3. _______________ 4. _______________.
You have the following chemicals in your (Lab-3): 12 10 345 89 FeCl 2 NaOH H 2 SO 4 HCl FeO Mg Fe Fe 2 (SO 4 ) 3 FeCl 3 6 FeSO 4 Fe(OH) 3 Fe 3 O 4 Fe.

You have the following chemicals in your (Lab-3): FeCl 2 NaOH H 2 SO 4 HCl FeO Mg Fe Fe 2 (SO 4 ) 3 FeCl 3 6 FeSO 4 Fe(OH) 3 Fe 3 O 4 Fe.
SATL IN LAB EXPERIMENTS Ameen F. M. Fahmy*,J.J.Lagowski** * Faculty of Science, Department of Chemistry and Science Education Center, Ain shams University,

SATL IN LAB EXPERIMENTS Ameen F. M. Fahmy*,J.J.Lagowski** * Faculty of Science, Department of Chemistry and Science Education Center, Ain shams University,
Hydrolysis and Neutralization

Hydrolysis and Neutralization
Agenda: 3/27 Objective: to predict products in a chemical reaction Warm-up: Formative Assessment Chemical Reactions.

Agenda: 3/27 Objective: to predict products in a chemical reaction Warm-up: Formative Assessment Chemical Reactions.
The atom It is the smallest part of matter that can take part in chemical reactions without being changed.

The atom It is the smallest part of matter that can take part in chemical reactions without being changed.

Similar presentations

Ads by Google