An engineer wants to know if producing metal bars using a new experimental treatment rather than the conventional treatment makes a difference in the tensile strength of the bars (the ability to resist tearing when pulled lengthwise). At a=0.10, answer parts (a) through (e). Assume the population variances are equal and the samples are random. If convenient, use technology to solve the problem. Treatment Tensile strengths (newtons per square millimeter) Experimental 410 413 407 426 372 357 363 Conventional 394 398 404 391 371 430 377 406 422 362 (a) Identify the claim and state Ho and H The claim is "The new treatment makes a difference in the tensile strength of the bars." What are Ho and H,? The nul hypothesis, Ho. is Y. The alternative hypothesis, H is
An engineer wants to know if producing metal bars using a new experimental treatment rather than the conventional treatment makes a difference in the tensile strength of the bars (the ability to resist tearing when pulled lengthwise). At a=0.10, answer parts (a) through (e). Assume the population variances are equal and the samples are random. If convenient, use technology to solve the problem. Treatment Tensile strengths (newtons per square millimeter) Experimental 410 413 407 426 372 357 363 Conventional 394 398 404 391 371 430 377 406 422 362 (a) Identify the claim and state Ho and H The claim is "The new treatment makes a difference in the tensile strength of the bars." What are Ho and H,? The nul hypothesis, Ho. is Y. The alternative hypothesis, H is
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![An engineer wants to know if producing metal bars using a new experimental treatment rather than the conventional treatment makes a difference in the tensile strength of the bars (the ability to resist tearing when pulled lengthwise). At a = 0.10,
answer parts (a) through (e). Assume the population variances are equal and the samples are random. If convenient, use technology to solve the problem.
Treatment
Tensile strengths (newtons per square millimeter)
Experimental 410 413 407 426 372 357 363
Conventional 394 398 404 391 371 430 377 406 422 362
(a) Identify the claim and state Ho and H
The claim is "The new treatment makes a difference
in the tensile strength of the bars
What are Ho and H,?
The null hypothesis, Ho, is
. The alternative hypothesis, H. is](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ff96b3bc9-780e-4b90-8da0-fb4f5755d397%2F4eb02134-b218-4fac-9782-7f6197652f8c%2Fnj8ncl_processed.jpeg&w=3840&q=75)
Transcribed Image Text:An engineer wants to know if producing metal bars using a new experimental treatment rather than the conventional treatment makes a difference in the tensile strength of the bars (the ability to resist tearing when pulled lengthwise). At a = 0.10,
answer parts (a) through (e). Assume the population variances are equal and the samples are random. If convenient, use technology to solve the problem.
Treatment
Tensile strengths (newtons per square millimeter)
Experimental 410 413 407 426 372 357 363
Conventional 394 398 404 391 371 430 377 406 422 362
(a) Identify the claim and state Ho and H
The claim is "The new treatment makes a difference
in the tensile strength of the bars
What are Ho and H,?
The null hypothesis, Ho, is
. The alternative hypothesis, H. is
![An engineer wants to know if producing metal bars using a new experimental treatment rather than the conventional treatment makes a difference in the tensile strength of the bars (the ability to resist tearing when pulled lengthwise). At a = 0.10,
answer parts (a) through (e). Assume the population variances are equal and the samples are random. If convenient, use technology to solve the problem.
Treatment
Tensile strengths (newtons per square millimeter)
Experimental 410 413 407 426 372 357 363
Conventional 394 398 404 391 371 430 377 406 422 362
(a) Identify the claim and state Ho and H
The claim is"The new treatment makes a difference
in the tensile strength of the bars."
What are Ho and H,?
The null hypothesis, Ho. is
. The alternative hypothesis, H, is](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ff96b3bc9-780e-4b90-8da0-fb4f5755d397%2F4eb02134-b218-4fac-9782-7f6197652f8c%2Fdgktqu1v_processed.jpeg&w=3840&q=75)
Transcribed Image Text:An engineer wants to know if producing metal bars using a new experimental treatment rather than the conventional treatment makes a difference in the tensile strength of the bars (the ability to resist tearing when pulled lengthwise). At a = 0.10,
answer parts (a) through (e). Assume the population variances are equal and the samples are random. If convenient, use technology to solve the problem.
Treatment
Tensile strengths (newtons per square millimeter)
Experimental 410 413 407 426 372 357 363
Conventional 394 398 404 391 371 430 377 406 422 362
(a) Identify the claim and state Ho and H
The claim is"The new treatment makes a difference
in the tensile strength of the bars."
What are Ho and H,?
The null hypothesis, Ho. is
. The alternative hypothesis, H, is
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