Answer: False
Explanation: This is false because, just because you exercise doesn't mean that it's going to reduce the amount of fat or sugar you just put into your body. Eating healthy and exercising is the way to go. Yes, what you eat does affect the way you perform your work out, you can have a side ache or you may throw up. You aren't even supposed to eat before working out.
Answer:
Just because you exercise everyday doesn't mean you can eat whatever you want. So that statement is false.
The food you eat can affect the way you perform when you exercise.
Explanation:
If you exercise then go home and eat a whole bag of chips what's the point of exercising. You need to have a balanced diet because whats the point of trying to lose weight just so you can gain it back or some more.
If you eat unhealthy foods that have grease,a lot of sodium, ect. It can affect the way you perform your exercises. If you..for example.. eat a lot of food with sodium (like salt) it can mess with your ovary which can cause health problem.
A. where oceanic crust slides under continental crust.
O
B. in the middle of continents.
O
c. where two continental plates spread apart.
D. on the edges of the Atlantic plate,
Answer:
A is right
Explanation:
what is a device that transforms thermal energy to mechanical energy
Answer:
2
Explanation:
The object's density is calculated by dividing its mass (10 grams) by its volume (5 cubic centimeters), yielding a density of 2 g/cm³.
The density of an object is calculated by dividing its mass by its volume. For the object in question, its mass is 10 grams and its volume is 5 cubic centimeters. Therefore, you would calculate density as follows: Density = Mass / Volume. Plug in the values and you get: Density = 10 grams / 5 cubic centimeters. This equals 2 g/cm³. Hence, the density of the object is 2 grams per cubic centimeter.
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B:science
C: scientific methods
D: technology
E: controlled variables
Controlled variables are the factor that remains at the same phases of an experiment.
Anything kept constant or constrained in a research study is referred to as a control variable. Despite not being relevant to the study's objectives, this variable is controlled because it might have an impact on the results.
Variables can be controlled either directly by maintaining their value throughout a study (for example, by maintaining a constant room temperature in an experiment) or indirectly by using techniques like randomization or statistical control (e.g., to account for participant characteristics like age in statistical tests).
Hence, controlled variables are that variables which are kept at the same phases of an experiment.
To learn more about controlled experiment, refer the link:
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the controlled varaibles aka E. because the control group is Group of subjects in the experiment that experimental group as compared to