Write and solve a compound inequality that represents the possible temperatures

jernplate8

jernplate8

Answered question

2021-09-07

Write and solve a compound inequality that represents the possible temperatures (in degrees Fahrenheit) of the interior of the iceberg.
Given: The temperatures are given -20 and -15 in degree centigrade.

Answer & Explanation

Sadie Eaton

Sadie Eaton

Skilled2021-09-08Added 104 answers

Formula used:
C=59(F32)
Calculation:
For C=20
F=95(20)+32
F=36+32
F=4
For C=15
F=95(15)+32
F=27+32
F=5
The value of temperature at C=20 is F=4 and at C=15 is F=5 F=5
Hence, the compound inequality of the temperature is found 4F5
nick1337

nick1337

Expert2023-06-10Added 777 answers

To represent the possible temperatures of the interior of the iceberg in degrees Fahrenheit, we need to convert the given temperatures from Celsius to Fahrenheit. The formula for converting Celsius to Fahrenheit is:
F=95C+32
where F represents the temperature in Fahrenheit and C represents the temperature in Celsius.
Given that the temperatures are -20°C and -15°C, we can calculate the corresponding temperatures in Fahrenheit:
For -20°C:
F=95(20)+32=4
For -15°C:
F=95(15)+32=5
Therefore, the possible temperatures of the interior of the iceberg in degrees Fahrenheit can be represented by the compound inequality:
4T5 where T represents the temperature in degrees Fahrenheit.
Vasquez

Vasquez

Expert2023-06-10Added 669 answers

First, let's convert the given temperatures to degrees Fahrenheit. The conversion formula from Celsius to Fahrenheit is: F=95C+32.
For -20°C, the temperature in Fahrenheit is: F=95(20)+32. Simplifying this equation gives: F=4+32=28°F.
For -15°C, the temperature in Fahrenheit is: F=95(15)+32. Simplifying this equation gives: F=27+32=5°F.
Now, let's write and solve a compound inequality to represent the possible temperatures:
5F28
Therefore, the compound inequality that represents the possible temperatures (in degrees Fahrenheit) of the interior of the iceberg is: 5F28.
RizerMix

RizerMix

Expert2023-06-10Added 656 answers

Answer:
4T5
Explanation:
Given that the temperatures are -20°C and -15°C, we can substitute these values into the conversion formula to find their Fahrenheit equivalents:
F1=95(20)+32
F2=95(15)+32
Simplifying these equations will give us the temperatures in degrees Fahrenheit:
F1=4
F2=5
Now we can write a compound inequality to represent the possible temperatures within this range. Let's assume T represents the temperature in degrees Fahrenheit. The compound inequality can be written as:
4T5
This inequality indicates that the temperature T is greater than or equal to -4°F and less than or equal to 5°F. Thus, any temperature within this range is a possible temperature for the interior of the iceberg.

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