When a body is moved from sea level to the top of a mountain, its weight changes but its mass remains constant. Weight is the force of gravity acting on an object, so as the body moves to higher altitudes where gravity is weaker, its weight decreases. Mass, on the other hand, is the amount of matter in an object and doesn't change with location.
To determine if the body is in homeostasis during the time shown in the graph, we need to analyze the data presented. Homeostasis refers to the body's ability to maintain stable internal conditions despite external changes. If the graph shows fluctuations or deviations from a stable range in key variables (like temperature, pH, or glucose levels), then the body may not be in homeostasis during those times. Conversely, if the graph indicates that these variables remain within a narrow, consistent range, it suggests that the body is maintaining homeostasis.
To determine if the body is in homeostasis during the time shown in the graph, we need to analyze the data presented. Homeostasis refers to the stable internal conditions maintained by the body despite external changes. If the graph shows fluctuations in key variables (like temperature, pH, or glucose levels), it indicates periods of disruption in homeostasis. Conversely, consistent levels suggest that the body is successfully maintaining homeostasis. Without seeing the graph, it's impossible to definitively conclude the state of homeostasis throughout.
Mass is a measure of the amount of matter in an object, while weight is the force with which gravity pulls on that object. Mass remains constant regardless of location, while weight changes depending on the strength of gravity. In science, mass and weight are important concepts for understanding the behavior of objects in different environments.
Gender. Body changes can occur above and below the waist for individuals of any gender. Hormonal changes, weight gain or loss, muscle development, and aging can affect the body shape and size regardless of whether someone identifies as male, female, or non-binary.
No you could not.
no
No. A circle graph can be used for showing the relationship between a variable and its component parts. It is not suitable for illustrating changes over time.
No. A circle graph can be used for showing the relationship between a variable and its component parts. It is not suitable for illustrating changes over time.
i think yea because people body can be a mess to change
Yes, because a line graph deals with change over time, and so does height.
Yes, because a line graph deals with change over time, and so does height.
yes
If speed changes, then the speed/time graph has up/down curves in it.
hi
no
It is not a suitable form of graph. A circle graph can be used for showing the relationship between a variable and its component parts. It is not suitable for illustrating changes with height.