5.0 kg mass hanging from a spring scale is slowly lowered onto a vertical spring. shown in (Eigure 1). ure 1: 1 of 1 > Express your answer with the appropriate units. ▸ View Available Hint(s) k= Submit HÅ Value Part C Previous Answers C Units ? X Incorrect; Try Again; 5 attempts remaining You may have mixed up the reading on the scale with the force that compresses the lower spring. Draw the free-body diagram and recall Newton's second law. You may want to review Hint 2. Simplify: Newton's second law. At what compression length will the scale read zero? Express your answer with the appropriate units. ▸View Available Hint(s)
5.0 kg mass hanging from a spring scale is slowly lowered onto a vertical spring. shown in (Eigure 1). ure 1: 1 of 1 > Express your answer with the appropriate units. ▸ View Available Hint(s) k= Submit HÅ Value Part C Previous Answers C Units ? X Incorrect; Try Again; 5 attempts remaining You may have mixed up the reading on the scale with the force that compresses the lower spring. Draw the free-body diagram and recall Newton's second law. You may want to review Hint 2. Simplify: Newton's second law. At what compression length will the scale read zero? Express your answer with the appropriate units. ▸View Available Hint(s)
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![A 6.0 kg mass hanging from a spring scale is slowly lowered onto a vertical spring, as shown in Figure 1.
### Figure
The diagram illustrates a 6.0 kg mass attached to a spring scale, which is positioned above a vertical spring.
### Problem Statement
The scale reads 20 N when the lower spring has been compressed by 1.4 cm. What is the value of the spring constant for the lower spring?
**Express your answer with the appropriate units.**
**Hints:**
1. View Available Hint(s)
2. Consider using Newton's Second Law and the relationship between force and spring compression.
### Input Area for Calculation
- \( k = \) [Input Field for Value and Units]
**Submission Status:**
- Incorrect; Try Again; 5 attempts remaining.
- You may have mixed up the reading on the scale with the force that compresses the lower spring. Draw the free-body diagram and recall Newton's Second Law.
- You may want to review Hint 2: Simplify Newton's Second Law.
### Part C
At what compression length will the scale read zero?
**Express your answer with the appropriate units.**
#### Input Area
- \(\Delta y = \) [Input Field for Value and Units]
**Hints:**
1. View Available Hint(s)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fe6ce2240-b3fe-4331-98ee-3937416f40f5%2F0a42e595-62f1-4b46-a527-2abee13b9b5f%2Fftyuiww_processed.png&w=3840&q=75)
Transcribed Image Text:A 6.0 kg mass hanging from a spring scale is slowly lowered onto a vertical spring, as shown in Figure 1.
### Figure
The diagram illustrates a 6.0 kg mass attached to a spring scale, which is positioned above a vertical spring.
### Problem Statement
The scale reads 20 N when the lower spring has been compressed by 1.4 cm. What is the value of the spring constant for the lower spring?
**Express your answer with the appropriate units.**
**Hints:**
1. View Available Hint(s)
2. Consider using Newton's Second Law and the relationship between force and spring compression.
### Input Area for Calculation
- \( k = \) [Input Field for Value and Units]
**Submission Status:**
- Incorrect; Try Again; 5 attempts remaining.
- You may have mixed up the reading on the scale with the force that compresses the lower spring. Draw the free-body diagram and recall Newton's Second Law.
- You may want to review Hint 2: Simplify Newton's Second Law.
### Part C
At what compression length will the scale read zero?
**Express your answer with the appropriate units.**
#### Input Area
- \(\Delta y = \) [Input Field for Value and Units]
**Hints:**
1. View Available Hint(s)
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