Answer :
Final answer:
The question involves understanding the energy per mass unit, usually in the context of radiation dosage. In the described situation, the dosages are doubling each time (2 J/kg, 4 J/kg, 8 J/kg) which indicates a geometric progression.
Explanation:
The question involves an understanding of the energy per mass unit, measured in Joule per kilogram (J/kg).
When the term 'dosage' is used in this context, it usually pertains to radiation dosage - the amount of ionizing energy absorbed per mass.
In the given scenario, it's a set of dosages that doubles each time: first 2 J/kg, then 4 J/kg, and then 8 J/kg, and so on.
To illustrate this with an example, let's assume a situation where a person's forearm, weighing 2 kg, absorbs 1 Joule of ionizing energy.
The radiation dose absorbed by the forearm would be (1.00 J)/(2.00 kg) = 0.500 J/kg.
This way of measurement is often used when dealing with ionizing radiation exposure, like x-rays, nuclear radiation, etc.
Here, the numbers mentioned - 2 J/kg, 4 J/kg, and so on - are the doses absorbed.
The subsequent dosages are doubling each time, indicating a geometric progression.
This is a mathematical concept that you might recognize from a sequence where each term after the first is found by multiplying the previous term by a fixed, non-zero number.
PEDI Defib Dosage
First is 2 j/kg. Second is 4j/kg Subsequent dosage is 8 j/kg
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Final answer:
The question involves understanding the energy per mass unit, usually in the context of radiation dosage. In the described situation, the dosages are doubling each time (2 J/kg, 4 J/kg, 8 J/kg) which indicates a geometric progression.
Explanation:
The question involves an understanding of the energy per mass unit, measured in Joule per kilogram (J/kg). When the term 'dosage' is used in this context, it usually pertains to radiation dosage - the amount of ionizing energy absorbed per mass. In the given scenario, it's a set of dosages that doubles each time: first 2 J/kg, then 4 J/kg, and then 8 J/kg, and so on.
To illustrate this with an example, let's assume a situation where a person's forearm, weighing 2 kg, absorbs 1 Joule of ionizing energy. The radiation dose absorbed by the forearm would be (1.00 J)/(2.00 kg) = 0.500 J/kg. This way of measurement is often used when dealing with ionizing radiation exposure, like x-rays, nuclear radiation, etc.
Here, the numbers mentioned - 2 J/kg, 4 J/kg, and so on - are the doses absorbed. The subsequent dosages are doubling each time, indicating a geometric progression. This is a mathematical concept that you might recognize from a sequence where each term after the first is found by multiplying the previous term by a fixed, non-zero number.
Learn more about Radiation Dosage here:
https://brainly.com/question/34791467
#SPJ11