This question tests the 1st grade skill of analyzing data from tests of two objects to compare the strengths and weaknesses of how each performs (K-2-ETS1-3: Analyze data to compare strengths and weaknesses). After testing two designs, we analyze (look carefully at) the data to find strengths and weaknesses. Strengths are what a design does well - where it performs successfully based on test results (fewer items fell, reached higher, held more, didn't tip, kept items separated, spilled less). Weaknesses are what a design doesn't do well - where it performs poorly based on test results (more items fell, didn't reach as high, held less, tipped over, items mixed together, spilled more). We identify strengths and weaknesses BY LOOKING AT THE DATA - not by guessing or opinions. The data (test results) gives us evidence about how each design performed, and we use that evidence to say what each design's strengths and weaknesses are. In this scenario, two funnel designs for pouring - Design A had wide opening, Design B had narrow opening. The test data showed: Design A spilled 2 tablespoons; Design B spilled 5 tablespoons. Based on this data, Design B's weakness is more spilling due to narrow opening (data shows 5); Design A's strength is less spilling (data shows 2). Choice A is correct because it correctly identifies Design B's weakness with evidence; it states more spilling as weakness because data shows 5 tablespoons. Choice B represents wrong data; this error typically occurs when students use wrong data. To help students analyze data for strengths and weaknesses: Create two-column chart (Strengths | Weaknesses) for each design; explicitly connect data to evaluation ('The data shows 5 tablespoons - that means more spilling is a weakness because it doesn't work well for pouring'); practice strength/weakness language (strength = what works well, weakness = what doesn't work well); emphasize evidence ('How do we know? The data shows...'); look at specific results (numbers, yes/no, measurements) to identify performance; compare design features to their results. Watch for: students who give opinions without data, who state results without labeling as strength/weakness, who reverse good and poor performance, who focus on appearance instead of function, who confuse which design had which result, or who think strength/weakness is about whether they like it instead of whether data shows it works well. Key concept: Data tells us about performance → good performance = strength, poor performance = weakness → we base our evaluation on evidence from testing, not on opinions.

This question tests the 1st grade skill of analyzing data from tests of two objects to compare the strengths and weaknesses of how each performs (K-2-ETS1-3: Analyze data to compare strengths and weaknesses). After testing two designs, we analyze (look carefully at) the data to find strengths and weaknesses. Strengths are what a design does well - where it performs successfully based on test results (fewer items fell, reached higher, held more, didn't tip, kept items separated, spilled less). Weaknesses are what a design doesn't do well - where it performs poorly based on test results (more items fell, didn't reach as high, held less, tipped over, items mixed together, spilled more). We identify strengths and weaknesses BY LOOKING AT THE DATA - not by guessing or opinions. The data (test results) gives us evidence about how each design performed, and we use that evidence to say what each design's strengths and weaknesses are. In this scenario, two shelf designs for storing books - Design A had one shelf, Design B had three shelves. The test data showed: Design A holds 8 books, Design B holds 24 books. Based on this data, Design B's strength is holding more books (24); Design A's weakness is holding fewer (8). Choice B is correct because it makes evidence-based comparison; it uses data from both designs to compare performance, correctly identifying Design B holds more with 24 books. Choice C represents wrong feature without data connection, saying Design A holds more based on one shelf but ignoring actual numbers. This error typically occurs when students identify features but don't connect to results, or confuse which design performed better. To help students analyze data for strengths and weaknesses: Create two-column chart (Strengths | Weaknesses) for each design; explicitly connect data to evaluation ('The data shows 24 books - that means more shelves are a strength because it holds more'); practice strength/weakness language (strength = what works well, weakness = what doesn't work well); emphasize evidence ('How do we know? The data shows...'); look at specific results (numbers, yes/no, measurements) to identify performance; compare design features to their results. Watch for: students who give opinions without data, who state results without labeling as strength/weakness, who reverse good and poor performance, who focus on appearance instead of function, who confuse which design had which result, or who think strength/weakness is about whether they like it instead of whether data shows it works well. Key concept: Data tells us about performance → good performance = strength, poor performance = weakness → we base our evaluation on evidence from testing, not on opinions.

This question tests the 1st grade skill of analyzing data from tests of two objects to compare the strengths and weaknesses of how each performs (K-2-ETS1-3: Analyze data to compare strengths and weaknesses). After testing two designs, we analyze (look carefully at) the data to find strengths and weaknesses. Strengths are what a design does well - where it performs successfully based on test results (fewer items fell, reached higher, held more, didn't tip, kept items separated, spilled less). Weaknesses are what a design doesn't do well - where it performs poorly based on test results (more items fell, didn't reach as high, held less, tipped over, items mixed together, spilled more). We identify strengths and weaknesses BY LOOKING AT THE DATA - not by guessing or opinions. The data (test results) gives us evidence about how each design performed, and we use that evidence to say what each design's strengths and weaknesses are. In this scenario, two tray designs for carrying books - Design A had flat board, Design B had board with edges. The test data showed: Design A 2 of 3 books fell; Design B 0 of 3 books fell. Based on this data, Design A's weakness is no edges that allowed books to fall (data shows 2 fell); Design B's strength is edges that kept books on (data shows 0 fell). Choice A is correct because it correctly states what design doesn't do well and provides data support; it correctly identifies Design A's weakness as no edges because data shows 2 books fell. Choice C represents opinion without data; this error typically occurs when students give opinions instead of using data. To help students analyze data for strengths and weaknesses: Create two-column chart (Strengths | Weaknesses) for each design; explicitly connect data to evaluation ('The data shows 2 books fell - that means no edges are a weakness because they don't work well to keep books on'); practice strength/weakness language (strength = what works well, weakness = what doesn't work well); emphasize evidence ('How do we know? The data shows...'); look at specific results (numbers, yes/no, measurements) to identify performance; compare design features to their results. Watch for: students who give opinions without data, who state results without labeling as strength/weakness, who reverse good and poor performance, who focus on appearance instead of function, who confuse which design had which result, or who think strength/weakness is about whether they like it instead of whether data shows it works well. Key concept: Data tells us about performance → good performance = strength, poor performance = weakness → we base our evaluation on evidence from testing, not on opinions.

This question tests the 1st grade skill of analyzing data from tests of two objects to compare the strengths and weaknesses of how each performs (K-2-ETS1-3: Analyze data to compare strengths and weaknesses). After testing two designs, we analyze (look carefully at) the data to find strengths and weaknesses. Strengths are what a design does well - where it performs successfully based on test results (fewer items fell, reached higher, held more, didn't tip, kept items separated, spilled less). Weaknesses are what a design doesn't do well - where it performs poorly based on test results (more items fell, didn't reach as high, held less, tipped over, items mixed together, spilled more). We identify strengths and weaknesses BY LOOKING AT THE DATA - not by guessing or opinions. The data (test results) gives us evidence about how each design performed, and we use that evidence to say what each design's strengths and weaknesses are. In this scenario, two shelf designs for storage - Design A had one shelf, Design B had three shelves. The test data showed: Design A held 8 books; Design B held 24 books. Based on this data, Design A's weakness is limited storage (data shows 8 books); Design B's strength is more storage (data shows 24). Choice A is correct because it correctly identifies Design A's weakness with evidence; it uses data showing Design A held 8 books to support limited storage. Choice B represents reversed evaluation; this error typically occurs when students reverse good and poor performance. To help students analyze data for strengths and weaknesses: Create two-column chart (Strengths | Weaknesses) for each design; explicitly connect data to evaluation ('The data shows 8 books - that means limited storage is a weakness because it doesn't work well for holding many'); practice strength/weakness language (strength = what works well, weakness = what doesn't work well); emphasize evidence ('How do we know? The data shows...'); look at specific results (numbers, yes/no, measurements) to identify performance; compare design features to their results. Watch for: students who give opinions without data, who state results without labeling as strength/weakness, who reverse good and poor performance, who focus on appearance instead of function, who confuse which design had which result, or who think strength/weakness is about whether they like it instead of whether data shows it works well. Key concept: Data tells us about performance → good performance = strength, poor performance = weakness → we base our evaluation on evidence from testing, not on opinions.

This question tests the 1st grade skill of analyzing data from tests of two objects to compare the strengths and weaknesses of how each performs (K-2-ETS1-3: Analyze data to compare strengths and weaknesses). After testing two designs, we analyze (look carefully at) the data to find strengths and weaknesses. Strengths are what a design does well - where it performs successfully based on test results (fewer items fell, reached higher, held more, didn't tip, kept items separated, spilled less). Weaknesses are what a design doesn't do well - where it performs poorly based on test results (more items fell, didn't reach as high, held less, tipped over, items mixed together, spilled more). We identify strengths and weaknesses BY LOOKING AT THE DATA - not by guessing or opinions. The data (test results) gives us evidence about how each design performed, and we use that evidence to say what each design's strengths and weaknesses are. In this scenario, two container designs for organizing supplies - A had one space, B had dividers. The test data showed: Design A items got mixed together (yes). Design B items stayed separated (yes). Based on this data, Design B's strength is dividers that kept items separated; Design A's weakness is single space that allowed mixing. Choice A is correct because it correctly states what design does well and provides data support - it identifies that dividers are a strength because data shows items stayed separated in Design B. Choice B represents reversed evaluation - this error typically occurs when students call good performance a weakness or vice versa, saying items got mixed when the data shows they stayed separated. To help students analyze data for strengths and weaknesses: Create two-column chart (Strengths | Weaknesses) for each design; explicitly connect data to evaluation ('The data shows items stayed separated - that means the dividers are a strength because they work well to keep items organized'); practice strength/weakness language (strength = what works well, weakness = what doesn't work well); emphasize evidence ('How do we know? The data shows...'); look at specific results (numbers, yes/no, measurements) to identify performance; compare design features to their results. Watch for: students who give opinions without data, who state results without labeling as strength/weakness, who reverse good and poor performance, who focus on appearance instead of function, who confuse which design had which result, or who think strength/weakness is about whether they like it instead of whether data shows it works well. Key concept: Data tells us about performance → good performance = strength, poor performance = weakness → we base our evaluation on evidence from testing, not on opinions.

This question tests the 1st grade skill of analyzing data from tests of two objects to compare the strengths and weaknesses of how each performs (K-2-ETS1-3: Analyze data to compare strengths and weaknesses). After testing two designs, we analyze (look carefully at) the data to find strengths and weaknesses. Strengths are what a design does well - where it performs successfully based on test results (fewer items fell, reached higher, held more, didn't tip, kept items separated, spilled less). Weaknesses are what a design doesn't do well - where it performs poorly based on test results (more items fell, didn't reach as high, held less, tipped over, items mixed together, spilled more). We identify strengths and weaknesses BY LOOKING AT THE DATA - not by guessing or opinions. The data (test results) gives us evidence about how each design performed, and we use that evidence to say what each design's strengths and weaknesses are. In this scenario, two platform designs for stability - A had narrow base, B had wide base. The test data showed: Design A tipped over (yes). Design B stayed standing (yes). Based on this data, Design B's strength is the wide base that kept it stable (data shows it stayed standing); Design A's weakness is narrow base that made it unstable (data shows it tipped over). Choice B is correct because it identifies strength with evidence - correctly states what design feature works well and provides data support, identifying that Design B's strength is wide base because data shows it stayed standing. Choice A represents reversed evaluation. This error typically occurs when students call poor performance a strength, confusing that tipping over is bad performance, not good. To help students analyze data for strengths and weaknesses: Create two-column chart (Strengths | Weaknesses) for each design; explicitly connect data to evaluation ('The data shows it stayed standing - that means the wide base is a strength because it works well to keep it stable'); practice strength/weakness language (strength = what works well, weakness = what doesn't work well); emphasize evidence ('How do we know? The data shows...'); look at specific results (numbers, yes/no, measurements) to identify performance; compare design features to their results. Watch for: students who give opinions without data, who state results without labeling as strength/weakness, who reverse good and poor performance, who focus on appearance instead of function, who confuse which design had which result, or who think strength/weakness is about whether they like it instead of whether data shows it works well. Key concept: Data tells us about performance → good performance = strength, poor performance = weakness → we base our evaluation on evidence from testing, not on opinions.

This question tests the 1st grade skill of analyzing data from tests of two objects to compare the strengths and weaknesses of how each performs (K-2-ETS1-3: Analyze data to compare strengths and weaknesses). After testing two designs, we analyze (look carefully at) the data to find strengths and weaknesses. Strengths are what a design does well - where it performs successfully based on test results (fewer items fell, reached higher, held more, didn't tip, kept items separated, spilled less). Weaknesses are what a design doesn't do well - where it performs poorly based on test results (more items fell, didn't reach as high, held less, tipped over, items mixed together, spilled more). We identify strengths and weaknesses BY LOOKING AT THE DATA - not by guessing or opinions. The data (test results) gives us evidence about how each design performed, and we use that evidence to say what each design's strengths and weaknesses are. In this scenario, two shelf designs for storage - Design A had one shelf, Design B had three shelves. The test data showed: Design A held 8 books; Design B held 24 books. Based on this data, Design B's strength is holding more books (data shows 24); Design A's weakness is holding fewer (data shows 8). Choice A is correct because it correctly identifies Design B's strength with evidence; it uses data showing Design B held 24 books to support holding more. Choice C represents irrelevant feature; this error typically occurs when students focus on non-functional features. To help students analyze data for strengths and weaknesses: Create two-column chart (Strengths | Weaknesses) for each design; explicitly connect data to evaluation ('The data shows 24 books - that means holding more is a strength because it works well for storage'); practice strength/weakness language (strength = what works well, weakness = what doesn't work well); emphasize evidence ('How do we know? The data shows...'); look at specific results (numbers, yes/no, measurements) to identify performance; compare design features to their results. Watch for: students who give opinions without data, who state results without labeling as strength/weakness, who reverse good and poor performance, who focus on appearance instead of function, who confuse which design had which result, or who think strength/weakness is about whether they like it instead of whether data shows it works well. Key concept: Data tells us about performance → good performance = strength, poor performance = weakness → we base our evaluation on evidence from testing, not on opinions.

This question tests the 1st grade skill of analyzing data from tests of two objects to compare the strengths and weaknesses of how each performs (K-2-ETS1-3: Analyze data to compare strengths and weaknesses). After testing two designs, we analyze (look carefully at) the data to find strengths and weaknesses. Strengths are what a design does well - where it performs successfully based on test results (fewer items fell, reached higher, held more, didn't tip, kept items separated, spilled less). Weaknesses are what a design doesn't do well - where it performs poorly based on test results (more items fell, didn't reach as high, held less, tipped over, items mixed together, spilled more). We identify strengths and weaknesses BY LOOKING AT THE DATA - not by guessing or opinions. The data (test results) gives us evidence about how each design performed, and we use that evidence to say what each design's strengths and weaknesses are. In this scenario, two funnel designs for pouring - Design A had wide opening, Design B had narrow opening. The test data showed: Design A spilled 2 tablespoons; Design B spilled 5 tablespoons. Based on this data, Design A's strength is less spilling (data shows 2); Design B's weakness is more spilling (data shows 5). Choice B is correct because it correctly identifies Design A's strength of spilling less with evidence; it uses data showing Design A spilled 2 tablespoons, which is less than 5. Choice A represents confusing designs; this error typically occurs when students confuse which design had which result. To help students analyze data for strengths and weaknesses: Create two-column chart (Strengths | Weaknesses) for each design; explicitly connect data to evaluation ('The data shows 2 tablespoons spilled - that means less spilling is a strength because it works well for pouring'); practice strength/weakness language (strength = what works well, weakness = what doesn't work well); emphasize evidence ('How do we know? The data shows...'); look at specific results (numbers, yes/no, measurements) to identify performance; compare design features to their results. Watch for: students who give opinions without data, who state results without labeling as strength/weakness, who reverse good and poor performance, who focus on appearance instead of function, who confuse which design had which result, or who think strength/weakness is about whether they like it instead of whether data shows it works well. Key concept: Data tells us about performance → good performance = strength, poor performance = weakness → we base our evaluation on evidence from testing, not on opinions.

This question tests the 1st grade skill of analyzing data from tests of two objects to compare the strengths and weaknesses of how each performs (K-2-ETS1-3: Analyze data to compare strengths and weaknesses). After testing two designs, we analyze (look carefully at) the data to find strengths and weaknesses. Strengths are what a design does well - where it performs successfully based on test results (fewer items fell, reached higher, held more, didn't tip, kept items separated, spilled less). Weaknesses are what a design doesn't do well - where it performs poorly based on test results (more items fell, didn't reach as high, held less, tipped over, items mixed together, spilled more). We identify strengths and weaknesses BY LOOKING AT THE DATA - not by guessing or opinions. The data (test results) gives us evidence about how each design performed, and we use that evidence to say what each design's strengths and weaknesses are. In this scenario, two container designs for organizing supplies - A had one box, B had box with dividers. The test data showed: Design A (one box) had items get mixed (yes). Design B (box with dividers) had items stay separated (yes). Based on this data, Design A's weakness is single space that allowed mixing; Design B's strength is dividers that kept items separated. Choice B is correct because it correctly states what design doesn't do well and provides data support - it identifies that Design A's weakness is items mixed because the results say yes. Choice A represents wrong feature - this error typically occurs when students confuse which design had which feature, saying Design A had dividers when it was actually one box. To help students analyze data for strengths and weaknesses: Create two-column chart (Strengths | Weaknesses) for each design; explicitly connect data to evaluation ('The data shows items mixed - that means one box is a weakness because it doesn't work well to keep items organized'); practice strength/weakness language (strength = what works well, weakness = what doesn't work well); emphasize evidence ('How do we know? The data shows...'); look at specific results (numbers, yes/no, measurements) to identify performance; compare design features to their results. Watch for: students who give opinions without data, who state results without labeling as strength/weakness, who reverse good and poor performance, who focus on appearance instead of function, who confuse which design had which result, or who think strength/weakness is about whether they like it instead of whether data shows it works well. Key concept: Data tells us about performance → good performance = strength, poor performance = weakness → we base our evaluation on evidence from testing, not on opinions.

This question tests the 1st grade skill of analyzing data from tests of two objects to compare the strengths and weaknesses of how each performs (K-2-ETS1-3: Analyze data to compare strengths and weaknesses). After testing two designs, we analyze (look carefully at) the data to find strengths and weaknesses. Strengths are what a design does well - where it performs successfully based on test results (fewer items fell, reached higher, held more, didn't tip, kept items separated, spilled less). Weaknesses are what a design doesn't do well - where it performs poorly based on test results (more items fell, didn't reach as high, held less, tipped over, items mixed together, spilled more). We identify strengths and weaknesses BY LOOKING AT THE DATA - not by guessing or opinions. The data (test results) gives us evidence about how each design performed, and we use that evidence to say what each design's strengths and weaknesses are. In this scenario, two base designs for stability - Design A had narrow base, Design B had wide base. The test data showed: Design A tipped over (yes); Design B stayed standing (yes). Based on this data, Design B's strength is the wide base that prevented tipping (data shows stayed standing); Design A's weakness is narrow base that caused tipping (data shows tipped over). Choice A is correct because it correctly states what design does well and provides data support; it identifies Design B's strength as the wide base because data shows it stayed standing. Choice D represents reversed evaluation; this error typically occurs when students call good performance a weakness or vice versa. To help students analyze data for strengths and weaknesses: Create two-column chart (Strengths | Weaknesses) for each design; explicitly connect data to evaluation ('The data shows stayed standing - that means the wide base is a strength because it works well to keep stable'); practice strength/weakness language (strength = what works well, weakness = what doesn't work well); emphasize evidence ('How do we know? The data shows...'); look at specific results (numbers, yes/no, measurements) to identify performance; compare design features to their results. Watch for: students who give opinions without data, who state results without labeling as strength/weakness, who reverse good and poor performance, who focus on appearance instead of function, who confuse which design had which result, or who think strength/weakness is about whether they like it instead of whether data shows it works well. Key concept: Data tells us about performance → good performance = strength, poor performance = weakness → we base our evaluation on evidence from testing, not on opinions.