Answer:
Morton's neuroma
Explanation:
Morton's neuroma -
It refers to the condition , which causes pain between the third and fourth toes of the foot , affecting the balls of the foot , is referred to as Morton's neuroma .
In this condition , the tissues around the nerves of the toes thickens , which leads to intense pain , and the toes may turn numb .
The person feel much relaxed with open toes slippers , rather than closed one .
In severe cases , surgery or corticosteroid injections are given .
Hence , from the given scenario of the question ,
The correct condition is Morton's neuroma .
1, and 2 are the answer and by one and 2 I mean the first 2 statements
Can not be determined
BMR is known as Basal Metabolic Rate which requires information about person's height, weight, age and gender to determine the number of calories burned by a person in a day.
But here only number of calories i.e. 1300 is given which is not enough to find out Alex's Total Energy Expenditure (TEE) as there is no detail about his height, weight and age is given.
Average BMR in the USA:
For Women it is 1493 calories.
For Men it is 1662 calories.
BMR is different from BMI (Body Mass Index) because to find out body mass index only the data related to height and weight is required.
and your welcome!
Mike's intrapulmonary pressure must be lower than atmospheric pressure when he inhales and greater than atmospheric pressure when he exhales in order to maintain normal air flow during inhalation and exhalation when he is having one of his asthma attacks.
The pressure exerted by gases within the alveoli of the lungs is called as intrapulmonary pressure.
To secure the normal air flow, the pressure gradient increases as airway resistance also increases. The pressure gradient is the difference between intrapulmonary and atmospheric pressures.
During inhalation, the intrapulmonary pressure must decrease more than average so that air is carried into the lungs against a greater resistance. However, during exhalation, the intrapulmonary pressure must increase more than normal to move out the air against the same resistance.
To learn more about intrapulmonary pressure here
brainly.com/question/14544728
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