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Nội Thất Ngọc Mỹ
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Thursday 09 October 2025 10:44:39 GMT
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tiemcophuong99
quetoithanhhoa :
Xin giá ạ
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Nà ná na nà na :
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E xin giá
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Gia đình :
Gỗ này là gỗ gì ạ
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Xinh quá
2025-10-11 12:19:28
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E xib giá ạ
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Nguyễn Ngọc Màng :
bn ạ
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xin gia
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A creative and educational project! Here's a step-by-step guide to make a hydraulic crane machine from cardboard using a syringe: Materials Needed - Cardboard (for base, crane arm, and other components) - Syringe (10-20 ml) - Water - Scissors - Glue or hot glue gun - Ruler or straightedge - Pencils or markers - Tape (masking or duct) - Small weights or beads (for counterweight) Step-by-Step Instructions Step 1: Design and Plan 1. Research and study the design of hydraulic cranes. 2. Sketch a basic design, considering the crane's size, shape, and movement. 3. Plan the syringe placement, water flow, and counterweight system. Step 2: Cut Out Cardboard Components 1. Cut out the base, crane arm, and other components from cardboard. 2. Assemble the components using glue or hot glue. Step 3: Create the Hydraulic System 1. Attach the syringe to the crane arm, ensuring it's securely attached. 2. Fill the syringe with color water,  3. Attach a small tube or straw to the syringe, connecting it to a small reservoir or container. Step 4: Add Counterweight and Movement Mechanism 1. Attach small weights or beads to the opposite end of the crane arm, creating a counterweight. 2. Add a movement mechanism, such as a small pulley system or a lever, to control the crane arm's movement. Step 5: Test and Refine 1. Test the crane by injecting water into the syringe, observing the crane arm's movement. 2. Refine the design as needed to achieve a smooth and efficient movement. Step 6: Add Additional Details (Optional) 1. Add a cardboard or paper cover to the crane, creating a more realistic design. 2. Incorporate additional features, such as a rotating base or a lifting hook. 3. Create a themed environment around the crane, such as a construction site or a harbor. Tips and Variations - Use different materials, such as foam board or 3D printed parts, to create a more durable and efficient crane. - Experiment with different syringe sizes or water flow rates to achieve a more precise movement. - Add sensors and programming to enable the crane to respond to environmental changes or user input. - Create a scaled-up or scaled-down version of the crane. Science Project Considerations - Hypothesis: How does the design of the hydraulic system and counterweight affect the crane's movement and efficiency? - Variables:     - Independent: Hydraulic system and counterweight design     - Dependent: Crane movement and efficiency     - Controlled: Water flow rate and syringe size - Data Collection: Record observations, measurements, and calculations related to the hydraulic system and counterweight's design and its effects on the crane's movement and efficiency. - Conclusion: Analyze results, discuss the hydraulic system and counterweight's design and its effects on the crane, and suggest improvements for future designs. #DIY #stem #cardboardcrafts
A creative and educational project! Here's a step-by-step guide to make a hydraulic crane machine from cardboard using a syringe: Materials Needed - Cardboard (for base, crane arm, and other components) - Syringe (10-20 ml) - Water - Scissors - Glue or hot glue gun - Ruler or straightedge - Pencils or markers - Tape (masking or duct) - Small weights or beads (for counterweight) Step-by-Step Instructions Step 1: Design and Plan 1. Research and study the design of hydraulic cranes. 2. Sketch a basic design, considering the crane's size, shape, and movement. 3. Plan the syringe placement, water flow, and counterweight system. Step 2: Cut Out Cardboard Components 1. Cut out the base, crane arm, and other components from cardboard. 2. Assemble the components using glue or hot glue. Step 3: Create the Hydraulic System 1. Attach the syringe to the crane arm, ensuring it's securely attached. 2. Fill the syringe with color water, 3. Attach a small tube or straw to the syringe, connecting it to a small reservoir or container. Step 4: Add Counterweight and Movement Mechanism 1. Attach small weights or beads to the opposite end of the crane arm, creating a counterweight. 2. Add a movement mechanism, such as a small pulley system or a lever, to control the crane arm's movement. Step 5: Test and Refine 1. Test the crane by injecting water into the syringe, observing the crane arm's movement. 2. Refine the design as needed to achieve a smooth and efficient movement. Step 6: Add Additional Details (Optional) 1. Add a cardboard or paper cover to the crane, creating a more realistic design. 2. Incorporate additional features, such as a rotating base or a lifting hook. 3. Create a themed environment around the crane, such as a construction site or a harbor. Tips and Variations - Use different materials, such as foam board or 3D printed parts, to create a more durable and efficient crane. - Experiment with different syringe sizes or water flow rates to achieve a more precise movement. - Add sensors and programming to enable the crane to respond to environmental changes or user input. - Create a scaled-up or scaled-down version of the crane. Science Project Considerations - Hypothesis: How does the design of the hydraulic system and counterweight affect the crane's movement and efficiency? - Variables: - Independent: Hydraulic system and counterweight design - Dependent: Crane movement and efficiency - Controlled: Water flow rate and syringe size - Data Collection: Record observations, measurements, and calculations related to the hydraulic system and counterweight's design and its effects on the crane's movement and efficiency. - Conclusion: Analyze results, discuss the hydraulic system and counterweight's design and its effects on the crane, and suggest improvements for future designs. #DIY #stem #cardboardcrafts

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