On a good morning the temperature was 64 Fahrenheit the temperature dropped seven F and then Rose 11 Fahrenheit how much does the temperature need to rise or fall to return to an intentional temperature of 64 Fahrenheit
To return to the initial temperature of 64 Fahrenheit, we can calculate the net change in temperature by adding the drop of 7 Fahrenheit and the rise of 11 Fahrenheit, which gives us a total change of 4 Fahrenheit. As the temperature initially increased by 4 Fahrenheit, it needs to decrease by 4 Fahrenheit to reach the original temperature of 64 Fahrenheit.
To determine how much the temperature needs to rise or fall to return to the original temperature of 64 Fahrenheit, we can analyze the given information step by step.
First, let's break down the temperature changes:
1. The initial temperature was 64 Fahrenheit.
2. The temperature then dropped by 7 Fahrenheit, resulting in a temperature of 64 - 7 = 57 Fahrenheit.
3. After that, the temperature rose by 11 Fahrenheit. Since the temperature was 57 Fahrenheit and it rose by 11 Fahrenheit, the new temperature becomes 57 + 11 = 68 Fahrenheit.
To find out how much the temperature needs to rise or fall to return to the initial temperature, we need to calculate the difference:
Original Temperature - Current Temperature
64 Fahrenheit - 68 Fahrenheit = -4 Fahrenheit
From this calculation, we see that the temperature needs to fall by 4 Fahrenheit to return to the original temperature of 64 Fahrenheit.
To return to an initial temperature of 64 degrees Fahrenheit, we need to calculate the net change after the temperature dropped 7 degrees and then rose 11 degrees.
First, let's determine the change in temperature after it dropped 7 degrees:
64 - 7 = 57 degrees Fahrenheit
Next, we need to calculate the change in temperature after it rose 11 degrees:
57 + 11 = 68 degrees Fahrenheit
So, the temperature needs to rise 4 degrees Fahrenheit to return to the initial temperature of 64 degrees Fahrenheit.