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compressed shoot 1.80 kg packages into a truck, as the figure(Figure 1) shows. The spring constant is 363 N/m and pressed 32.0 cm. What is the speed of the package when it reaches the truck? Express your answer with the appropriate units. Value Submit Request Answer Units ?

compressed shoot 1.80 kg packages into a truck, as the figure(Figure 1) shows. The spring constant is 363 N/m and pressed 32.0 cm. What is the speed of the package when it reaches the truck? Express your answer with the appropriate units. Value Submit Request Answer Units ?

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## Educational Content: Physics Problem on Energy and Friction ### Problem Description A freight company uses a compressed spring to shoot 1.80 kg packages up a 1.00 m-high frictionless ramp into a truck. The spring constant is 363 N/m, and the spring is compressed by 32.0 cm. ### Part A **Question:** What is the speed of the package when it reaches the truck? **Instructions:** Express your answer with the appropriate units. - Input field for speed value and units. - Button to submit the answer. - Option to request the answer. ### Part B **Scenario:** A careless worker spills his soda on the ramp. This creates a 50.0 cm-long sticky spot with a coefficient of kinetic friction of 0.300. **Question:** Will the next package make it into the truck? **Options:** - Yes - No - Button to submit the answer. - Option to request feedback. ### Diagram Description - A compressed spring is positioned at the base of a ramp. - The ramp is labeled as 1.0 m high. - A truck is located at the top of the ramp. - There is a 50-cm-long segment marked on the ramp, indicating the location of the sticky spot caused by the spilled soda.
Transcribed Image Text:## Educational Content: Physics Problem on Energy and Friction ### Problem Description A freight company uses a compressed spring to shoot 1.80 kg packages up a 1.00 m-high frictionless ramp into a truck. The spring constant is 363 N/m, and the spring is compressed by 32.0 cm. ### Part A **Question:** What is the speed of the package when it reaches the truck? **Instructions:** Express your answer with the appropriate units. - Input field for speed value and units. - Button to submit the answer. - Option to request the answer. ### Part B **Scenario:** A careless worker spills his soda on the ramp. This creates a 50.0 cm-long sticky spot with a coefficient of kinetic friction of 0.300. **Question:** Will the next package make it into the truck? **Options:** - Yes - No - Button to submit the answer. - Option to request feedback. ### Diagram Description - A compressed spring is positioned at the base of a ramp. - The ramp is labeled as 1.0 m high. - A truck is located at the top of the ramp. - There is a 50-cm-long segment marked on the ramp, indicating the location of the sticky spot caused by the spilled soda.
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1.90m/s is wrong. Please show me the correct answer.

The image depicts a physics problem involving a freight company that uses a compressed spring to launch 1.80 kg packages up a 1.00 m high frictionless ramp into a truck. The spring has a constant of 363 N/m and is compressed by 32.0 cm. **Figure Explanation:** The diagram shows a spring-loaded mechanism placed in front of a ramp leading into a truck. The spring is initially compressed, and upon release, it propels the package forward. The ramp has a 50 cm length marked as a "sticky spot." The truck's loading platform is 1.00 m high from the ground. **Problem Context:** The task is to determine the speed of the package when it reaches the truck, using the provided variables. **Solution Interface:** The interface for solving the problem features an input box labeled with "v" (velocity) for entering the speed in meters per second (m/s). An example answer is displayed as 1.90 m/s, which is marked incorrect, prompting the user to try again. Options such as "Submit," "Previous Answers," and "Request Answer" are included. **Feedback Section:** The interface provides an option to give feedback on the problem-solving experience.
Transcribed Image Text:The image depicts a physics problem involving a freight company that uses a compressed spring to launch 1.80 kg packages up a 1.00 m high frictionless ramp into a truck. The spring has a constant of 363 N/m and is compressed by 32.0 cm. **Figure Explanation:** The diagram shows a spring-loaded mechanism placed in front of a ramp leading into a truck. The spring is initially compressed, and upon release, it propels the package forward. The ramp has a 50 cm length marked as a "sticky spot." The truck's loading platform is 1.00 m high from the ground. **Problem Context:** The task is to determine the speed of the package when it reaches the truck, using the provided variables. **Solution Interface:** The interface for solving the problem features an input box labeled with "v" (velocity) for entering the speed in meters per second (m/s). An example answer is displayed as 1.90 m/s, which is marked incorrect, prompting the user to try again. Options such as "Submit," "Previous Answers," and "Request Answer" are included. **Feedback Section:** The interface provides an option to give feedback on the problem-solving experience.
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