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2 years ago

Porter's five competitive forces form a model for ______ analysis.

SAT

1 answer:

vagabundo [1.1K]2 years ago

5 0

Porter's five competitive forces form a model for a company's competitive environment analysis.

<h3>What is a Competitive Force?</h3>

This refers to the different entities that are direct or indirect rivals to a particular business and this is shown through their price aggregation, differentiation, etc.

Hence, we can see that based on the five competitive forces by Porter, they act as a model or framework for a company's competitive environment analysis.

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If your driver license is suspended for too many points, what type of insurance must you either purchase or prove that you had o

AnnZ [28]

If your driver license is suspended for too many points, we need to show a proof of liability insurance.

What do you mean by insurance?

Managing your risk is possible with insurance. The protection against unforeseen financial losses you purchase when you purchase insurance. If something bad happens to you, the insurance company pays you or a person of your choice. If you don't have insurance and an accident occurs, you can be liable for all expenses.

An insurance policy is a binding agreement between the insurance provider (the insurer) and the individual(s), firm, or other entity being insured (the insured). Reading your policy enables you to make sure that it addresses your needs and that you are aware of both your own and the insurance provider's obligations in the event of a loss.

To learn more about an insurance, use the link given
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4 0

1 year ago

In a certain region, 94 percent of the people have a certain characteristic in their blood. Suppose a group of 45 people from th

Damm [24]

The best interpretation of the mean is;

Option A; For all groups of 45 people, the average number of people without the characteristic is 2.7

<h3>Interpretation of Mean</h3>

We are given;

Percentage of people with a certain characteristic in their blood = 94%

Number of people selected = 45

Number of people without the characteristic in their blood = B

Now, we are told that B follows a binomial distribution with a mean of 2.7 people.

Now, in statistics, mean is defined as the average of a set of data.

Thus, this mean refers to the average number of people that don't have the characteristic in their blood from the group of 45 people.

The missing options are;

A) For all groups of 45 people, the average number of people without the characteristic is 2.7.

B) Every group of 45 people will have 2.7 people with the characteristic.

C) Every group of 45 people will have 2.7 people without the characteristic.

D) On average, 2.7 people are selected until finding someone with the characteristic

E) On average, 2.7 people are selected until finding someone without the characteristic

Read more about Interpretation of Mean at; brainly.com/question/20434315

3 0

3 years ago

Which of the following non-renewable resources of energy has the smallest amount of fuel left on earth?.

HACTEHA [7]

Answer:

Their is no answer choices but Nonrenewable energy resources include coal, natural gas, oil, and nuclear energy.

Explanation:

3 0

2 years ago

To compare the average amount of time that canadians and americans spend commuting, a researcher collects a sample of canadians

yKpoI14uk [10]

The standard error of the difference of sample means is 0.444

From the complete question, we have the following parameters

Canadians

Sample size = 50
Mean = 4.6
Standard deviation = 2.9

Americans

Sample size = 60
Mean = 5.2
Standard deviation = 1.3

The standard error of a sample is the quotient of the standard deviation and the square root of the sample size.

This is represented as:

$SE = \frac{\sigma}{\sqrt n}$

The standard error of the Canadian sample is:

$SE_1 = \frac{2.9}{\sqrt{50}}$

So, we have:

$SE_1 = 0.41$

The standard error of the American sample is:

$SE_2 = \frac{1.3}{\sqrt{60}}$

So, we have:

$SE_2 = 0.17$

The standard error of the difference of sample means is then calculated as:

$SE= \sqrt{SE_1^2 + SE_2^2}$

This gives

$SE= \sqrt{0.41^2 + 0.17^2}$

$SE= \sqrt{0.197}$

Take square roots

$SE= 0.444$

Hence, the standard error of the difference of sample means is 0.444