To reproduce, organisms need to release energy from energy storage molecules. If there are more energy storage molecules available to the moon jellies, they can reproduce more, resulting in more births. Fewer deaths would also cause the jelly population to increase.
The moon jelly is one of the most common jellyfish in Rhode Island. Its body shape resembles an umbrella, with four equal-sized horseshoe-shaped gonads in the center of its body. Moon jellies are made up almost entirely of water and will not hold their shape when out of the water.
To learn more about The moon jelly, refer
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Answer:
The jelly is able to hold the weight of gravity
Explanation:
I TOOK THE TEST: continental drift
O 2,500 mg
O 250 mg
O 2.5 mg
O 50 mg
To calculate the dosage of a drug given in mg/kg for a person, multiply the dosing rate by the person's mass. In this case, the dosing rate is 50 mg/kg and the mass of the person is 50 kg, yielding a total dosage of 2,500 mg.
When administering a drug with a dosing rate that is given in mg/kg, you need to multiply the dosing rate by the patient's mass to determine the proper dosage. In this case, we use the formula:
Dose = Dosing rate × mass
Substituting the given values into the formula:
Dose = 50 mg/kg × 50 kg, which equals to 2,500 mg.
Therefore, you need to administer 2,500 mg of the drug to the patient.
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Answer:
C. Student 2
Explanation:
The community is the sum of all of the different populations in an area. All of the biotic(living) components of an ecosystem.
The only answer with more than one organisms is student 2's observation.
Answer:
1. Cardiorespiratory exercise, also known as aerobic
exercise, uses oxygen and typically involves using large muscle groups during continuous activities.
2. Your body produces energy under anaerobic conditions during the first few seconds of intense exercise.
3. When the end phosphate is hydrolyzed from an ATP molecule, ADP is formed, and energy is released.
4. CP (Creatine phosphate) is stored in the muscles and is broken down to replenish ATP stores.
5. When participating in low-intensity activities over a long period of time, the body primarily uses fat for energy.
6. A small amount of amino acids
can be utilized for energy production during endurance events, but their primary role is to promote muscle growth and help with repair.
7. Your body burns carbohydrates for energy during every type of exercise that lasts longer than three seconds. Intensity and duration of exercise will affect the percentage of energy that is derived from this source.
8. Endurance athletes may use a training strategy known as carbohydrate loading to maximize their body's glycogen stores.
9. The body's preferred carbohydrate source for energy during very high intensity exercise is muscle glycogen.
Explanation:
The correct question includes the following incomplete sentences:
1. Cardiorespiratory exercise, also known as ________ exercise, uses oxygen and typically involves using large muscle groups during continuous activities.
2. Your body produces energy under _______ conditions during the first few seconds of intense exercise.
3. When the end phosphate is hydrolyzed from an ____ molecule, ADP is formed, and energy is released.
4. ____ is stored in the muscles and is broken down to replenish ATP stores.
5. When participating in low-intensity activities over a long period of time, the body primarily uses ____ for energy.
6. A small amount of _______ can be utilized for energy production during endurance events, but their primary role is to promote muscle growth and help with repair.
7. Your body burns _______for energy during every type of exercise that lasts longer than three seconds. Intensity and duration of exercise will affect the percentage of energy that is derived from this source.
8. Endurance athletes may use a training strategy known as _________ to maximize their body's glycogen stores.
9. The body's preferred carbohydrate source for energy during very high intensity exercise is _________.
Words to complete are:
Physical exercise involves the additional consumption of oxygen and nutrients to compensate for the increased energy demand that such activity entails.
In general, the body uses the energy metabolism to obtain the energy necessary to carry out its functions.Under normal conditions, energy in the form of ATP is obtained from glucose, a carbohydrate, which requires oxygen, to perform aerobic metabolism.
The different types of physical exercise will require, according to their intensity and duration, alternative metabolic pathways, which include the use of lipids and proteins as an energy substrate, as well as anaerobic metabolism, which does not require oxygen, but whose energy output is lower.
The body's carbohydrate reserves are found in the liver and muscle tissue in the form of a glucose polymer called glycogen. Carbohydrate loading is a technique used by high-performance athletes to store as much glucose as possible, with a special and appropriate diet of low-calorie carbohydrates.
Creatine phosphate (CP) -found in muscle- is a donor molecule of phosphate groups, necessary for the production of ATP, through the action of the enzyme creatine phosphate kinase (CPK).
Food is used as fuel for the body, providing energy for physical activities and exercise. It is broken down through digestion, with the energy stored in its molecules released through oxidation. The body regulates its weight based on the balance between the calories ingested and burned.
The body uses the food we eat as fuel, breaking it down during digestion into molecules small enough to be absorbed. These molecules primarily come from carbohydrates and lipids, and to a lesser degree from proteins. These nutrients provide the body with energy (in the form of calories), which is used during physical activities such as exercise.
The process through which food is metabolized is known as oxidation, releasing the chemical potential energy of the ingested food. Much of this energy is converted into ATP, the energy currency of our body's cells. The body is also able to store excess energy as glycogen in the liver and muscles, as well as in fat cells, for future use.
The type of food ingested can affect the body's metabolic rate, with the body requiring less energy to process carbohydrates than proteins. This, in combination with the number of calories ingested and burned, determines an individual's weight. As such, consuming fewer calories than are burned through activity can result in weight loss.
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