How is the range of a data set determined? A. Sum of the data divided by the number of data points.
B. It is all real numbers.
C. Largest value plus the smallest value, divided by 2
D. Largest value minus the smallest value.

Answers

Answer 1

Answer:

Answer:

Largest value minus the smallest value

Explanation:

The range of a set of data is the difference between the highest and lowest values in the set. To find the range, first order the data from least to greatest. Then subtract the smallest value from the largest value in the set.

Answer 2

Answer:

Final answer:

The range of a data set is determined by taking the largest value and subtracting the smallest value. For a given example data set {3, 4, 5, 6, 9}, the range is calculated as 9 - 3, hence the range is 6.

Explanation:

The range of a data set in mathematics is determined by subtracting the smallest value in the set from the largest value. This concept is used in statistical analysis to measure the dispersion or spread in a data set. So, the correct option from the choices you provided is D. 'Largest value minus the smallest value'. Let's look at an example: If we have a data set that includes the numbers {3, 4, 5, 6, 9}, the range would be calculated as 9 (largest number) minus 3 (smallest number), which equals 6. So, the range of this data set is 6.

Learn more about Range in Mathematics here:

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Which factor will increase a population's size?A.) High birthrateB.) High death rateC.) High emigration rateD.) High predation rate

Organelle that packages and transports materials out of the cell?

Answers

Golgi appartus. This transports things around the cell, is made of saccules.

12. Jacks and silversides are a good example of an evolutionary arms race between predators and prey. Describe the predatory adaptations of the jacks, and the defensive adaptations of the silversides

Answers

Answer:

Predators is an organism which can be described as the hunter who hunts for food. An d prey can be described as the organism on which the predator will feed.

Silversides can be described as small fishes which are very thin. They are usually found in fresh water or near the coastal areas.

The adaptation of the Jacks include :

They are fast.

They attack the prey in herds.

Adaptations of silverside are:

They have colour much transparent or like the colour of water which allows them to hide.
They travel in groups.

Which statement best explains why cells were observed in more detail using a compound microscope than a simple microscope?

Answers

the statement best that explains why cells were observed in more detail using compound microscope than a simple microscope is : compound microscope has greater magnification ability than the simple microscope .

This will allow us to observe the subject with a much smaller size, making it easier for us to observe the detail

hope this helps

Explanation:

A microscope is a tool used to observe small objects in a larger size in order to see the details. The main difference between a compound and a simple microscope is the number of lenses, a compound microscope has two sets of lenses, meaning it has a higher magnification allowing the observation of more details and therefore is more adequate to observe cells.

I hope you find this infromation useful and interesting! Good luck!

A scientist observing a group of spider monkeys noticed that the adult females often spend time picking leaves off of tree branches. The scientist hypothesizes that this behavior is caused by boredom. Is the scientist’s hypothesis valid?No, humans are the only organisms that experience boredom.
Yes, boredom is a likely explanation for the spider monkeys’ behavior.
No, emotions of non-human organisms cannot be tested.
Yes, the hypothesis could be tested through a controlled experiment.

Answers

the answer is No, emotions of non-human organisms cannot be tested.

What is definition of an abiotic factor?

Answers

A nonliving condition or thing that can determine which species of organisms will survive in a given environment

The definition of abiotic factor is a nonliving condition or thing, as climate or habitat, that a nonliving condition or thing, as climate or habitat, that affect the organisms.

The Animal Functional Genomics Laboratory at Mississippi State University conducts genetic research involving farm animals. The results can be used to genetically modify commercially useful animals. Which idea can BEST be used to argue in favor of this research? A) Genetic changes can be designed to make cows yield more milk. Eliminate B) Genetic changes can be used to create an entirely new species. C) Genetic changes can be used to control the populations of farm animals. D) Genetic changes can be designed to control the animals' group behavior.

Answers

Answer: (A) Genetic changes can be designed to make cows yield more milk.

Explanation: Milk yield per cow has more than doubled in the previous 40 years and many cows now produce more than 20,000 kg of milk per lactation due to genetic changes. This shows that genetic changes to make cows yield more milk has already occurred.

Final answer:

The best argument in favor of the genetic research conducted by the Animal Functional Genomics Laboratory at Mississippi State University is that genetic modifications can enhance productivity in farm animals, like increasing a cow’s milk yield.

Explanation:

The idea that can BEST be used to argue in favor of the genetic research conducted by the Animal Functional Genomics Laboratory at Mississippi State University involves the possibility of genetically designing changes in commercially useful farm animals to increase productivity. For instance, a genetic modification could be designed in cows to increase their milk yield (A). This has the potential to benefit the agricultural sector immensely, supporting an economic boost and possibly aiding in addressing world hunger issues with increased food production.

It's important to understand that this approach is not about creating entirely new species (B), controlling populations (C), or modifying group behavior (D). The central focus of this research is primarily on boosting productivity and efficiency in the agricultural industry.