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Trace over the complete circuit with your pencil to show where it is. Even though there is a complete circuit, the bulb will not light. Why not?||The circuit does not include both contact points on the bulb holder, so the electricity can not go through the bulb.||Some of the wires are disconnect. | partially_correct_incomplete |
Trace over the complete circuit with your pencil to show where it is. Even though there is a complete circuit, the bulb will not light. Why not?||The circuit does not include both contact points on the bulb holder, so the electricity can not go through the bulb.||It will not light because the bulbs wires are not connected to both sockets. | correct |
Trace over the complete circuit with your pencil to show where it is. Even though there is a complete circuit, the bulb will not light. Why not?||The circuit does not include both contact points on the bulb holder, so the electricity can not go through the bulb.||Because the motor got all the power. | irrelevant |
Trace over the complete circuit with your pencil to show where it is. Even though there is a complete circuit, the bulb will not light. Why not?||The circuit does not include both contact points on the bulb holder, so the electricity can not go through the bulb.||Because one side is hooked to the motor. | partially_correct_incomplete |
Trace over the complete circuit with your pencil to show where it is. Even though there is a complete circuit, the bulb will not light. Why not?||The circuit does not include both contact points on the bulb holder, so the electricity can not go through the bulb.||The bulb will not work because the negative and the positive cannot go in the same way. | partially_correct_incomplete |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||Yes because there is enough power for it to work but it will be bright and it is a parallel circuit. | contradictory |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||No she cannot. Why is because she only has one switch and she has to have 2 for both to work. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||No. She cannot because the switch has to be in front of the negative sign. | partially_correct_incomplete |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||No, because the switch can only complete one circuit at a time. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||Yes. Because it is a parallel circuit and they can both run well. | contradictory |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||No. The switch can only be hooked on one side at one time, unless you scooted the wires to the middle and hooked them up together. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||No, It is not a complete circuit. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||No because she need a wire and a switch. | partially_correct_incomplete |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||No, she cannot because the switch can only go one way and make a complete circuit. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||No! The switch cannot be left and right at the same time. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||No she cannot. She would have to turn the switch like this sideways Because there is a gap if you turn it left or right. | partially_correct_incomplete |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||No because the negative on the side for the bulb might have to have the energy from the motor going in and it will go back and forth. | partially_correct_incomplete |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||No because the light bulb will flicker and the motor will keep going until she turns the switch off. | partially_correct_incomplete |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||No because it cannot make a complete circuit going each way. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||Yes because the motor is sending the energy back to the light bulb and back. | contradictory |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||Yes. She could put 2 wires on the switch to the other wires. | contradictory |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||Yes because the battery has enough power to run both unless the switch is on. | contradictory |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||No because the switch cannot go 2 ways at once. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||Yes. But all will have to be together. | contradictory |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||No she cannot because she only has one switch. | partially_correct_incomplete |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||Yes because all she has to do is put the motor and the light bulb on the same wire and put the switch in the middle. | contradictory |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||She can do it but it would have to be a parallel circuit. | contradictory |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||Yes, we all tried it in class and it worked. | contradictory |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||Yes, because the wires are connected to both items. | contradictory |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||Yes she can because the flow will go all the way to the source. | contradictory |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||Well she could try the light would not work as strong as the motor. | contradictory |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||No she would need 2 switches. | partially_correct_incomplete |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||No, she would have to have 2 switches. | partially_correct_incomplete |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||Yes, because the flow of electricity will go to the light and then to the motor. | contradictory |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||No because she can only turn the switch to the light bulb or the motor. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||No, because there is not going to be a closed circuit on both sides. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||No Because she can turn one on at a time. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||No because the D-cell in the middle. | partially_correct_incomplete |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||Yes. | contradictory |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||Yes she can. Because that is how you have to do it. | contradictory |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. Can she run both the light and the motor at the same time? Why or why not?||No. Only one circuit can be complete at a time.||She can run both at the same time because, if it is going to the negative and to the positive and all the components are set up correctly in the right way it will work. | contradictory |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. The black box will get hotter than the white because the black box can hold more heat. | partially_correct_incomplete |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. Because black is a dark color and it absorb heats faster than the white. White reflect so heats up slower. | correct |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. Because black absorbs much more heat of the sun and white reflects the heat of the sun. | correct |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. The black box will collect more heat, because it is black. Black absorbs light from the sun. White reflects light from the light. | correct |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. I pick yes because that black do heat fast than white. Darker color heat faster and more hot air. | partially_correct_incomplete |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. Because dark colors like black contract heat but light colors like white do not. | partially_correct_incomplete |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||No. Because her data does not have enough information to support her prediction. | contradictory |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. Because when someone is going to ask her what data support what is she going to say. | partially_correct_incomplete |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. Because black absorbs heat and white does not absorb heat. | correct |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Black box. Because the black box absorb sunlight and that is why the black box is much more hotter than the white one. | partially_correct_incomplete |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. Black is hotter than the white box because black gets hotter fast. | partially_correct_incomplete |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. Because the black one will get hotter than the white one. | partially_correct_incomplete |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. Yes because black absorbs the heat and traps it, and white just reflects the sun. So her prediction is right. | correct |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. Because black absorbs heat faster than any type of color. | partially_correct_incomplete |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. Because of the heat like black box is more hotter than the white one because of the color. | partially_correct_incomplete |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. It will support Amber's prediction because black is covered and it attracts more solar heat. | partially_correct_incomplete |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. Because black attracts heat. So it will heat up faster. | partially_correct_incomplete |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. Because the sun hits the boxes and the inside gets really warm. So the thermometer will show the temp. | partially_correct_incomplete |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. The black absorbs heat and energy, plus, the container is closed so the heat would be trapped inside. | partially_correct_incomplete |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. Because black heats up faster than white. Because black is a darker and the white is lighter. | partially_correct_incomplete |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||No. The data will not support her answer because all it says are the materials and what she is going to do. | contradictory |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. Because anything black will absorb the heat, and the heat will make the box hotter every 5 minutes that she checks. But if she was talking about the white box the answer would be no because white does not absorb heat like black does, it just makes it even cooler than hotter. So the answer is Yes! | correct |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. The black box will heat up faster than the white because the black box is darker than the white box so the white box reflects the heat and the black box collects the heat. | correct |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. Yes, because she did all the steps she got 2 boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole and put the boxes in the sun and recorded the temperature in each box. | partially_correct_incomplete |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. Yes it will because your prediction is based off of what you know and to have data to refer back to you probably will have a more accurate answer. | partially_correct_incomplete |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. The black box absorbs the heat, then releases slowly meaning it is hotter because the white box reflects the heat. | correct |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. Well, black attracts to the sun more than white does so the black box is going to get hotter. | partially_correct_incomplete |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. Because black heats up faster and white reflects. | correct |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. Since the box is black, black attracts or absorbs heat faster, the other box is white which reflects more sunlight than absorbing it. | correct |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. Because the box is black and the heat goes faster than white. | partially_correct_incomplete |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. If she wanted to heat up a box it would be the black one because a dark color takes the heat faster than the white one because white is brighter than black. | partially_correct_incomplete |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. The black covered one is going to get hotter because black absorbs heat and white reflects the heat. | correct |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. Yes because light colors will reflect the sun and black or darker colors will absorb the sun and if light or white colors reflect the sun then it will not get as much heat as the black or light colors. | correct |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. Because black always heats faster than white and white reflects the heat from the sun. | correct |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. I know that black materials or plastic or just black will absorb the heat more and white reflects the heat or light back. Also black heats faster and more. | correct |
Amber predicted that a black covered box would heat up faster than a white covered box. She took 2 identical shoe boxes and wrapped one with white paper and the other with black paper. She punched a hole in each box, stuck a thermometer into each hole, and put both boxes in the sun. Every 5 minutes, Amber recorded the temperature in each box. Will the data support Amber's prediction? Explain your answer.||Yes. Black absorbs more heat (energy) than white. White reflects more heat (energy) than black. Therefore the black covered box will heat up faster than the white covered box.||Yes. I say yes because she will measure each box and she is going to take it cold and hot so one is going to be up and one other is going to go down. | partially_correct_incomplete |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||The light bulb will not work. | contradictory |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||Only the light will light. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||Nothing will happen. | contradictory |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||The light bulb will light up. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||It is going to stop. | contradictory |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||The light will come on. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||The bulb will light. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||Nothing. | contradictory |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||The bulb will come on. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||The motor will run. | irrelevant |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||The light bulb will run. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||The light bulb will lit. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||It will not work. | contradictory |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||It will turn on. | irrelevant |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||The motor will run. | contradictory |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||The light bulb will cut on. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||I will start the motor and light. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||When she moves the switch to the left the light bulb will turn on. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||The energy will keep flowing. | irrelevant |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||If she moves the switch to the left everything will turn on. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||The light will run. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||The light bulb will turn on. | correct |
Denise made a circuit to light a bulb or run a motor. She used a special switch. Below is the schematic diagram of her circuit. The switch is inside the dotted box. What will happen when she moves the switch to the left?||The bulb will light.||The light run. | correct |
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