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Q: Could you use a circle graph to show data about how body mass change?

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i think yea because people body can be a mess to change

No. A circle graph is used to show how parts compare with the whole.

No you could not.

no

Circle graphs don't show change - just proportions.

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 with height.

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.

You cannot. A circle graph cannot be used to illustrate relationships between two variables.

hi

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.

Yes, because a line graph deals with change over time, and so does height.

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.

That the body, whose motion is being plotted is not moving radially. It can be moving along a circle with the origin as the centre at any speed but that does not show up in a displacement-time graph.

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the slope of distance time graph gives us velocity but when the body is at rest it will be zero

A displacement vs. time graph of a body moving with uniform (constant) velocity will always be a line of which the slope will be the value of velocity. This is true because velocity is the derivative (or slope at any time t) of the displacement graph, and if the slope is always constant, then the displacement will change at a constant rate.

yes

That could cause a change from solid to liquid, or from liquid to gas.

A body moving at a uniform speed may have a uniform velocity, or its velocity could be changing. How could that be? Let's look. The difference between speed and velocity is that velocity is speed.

for a perfect elastic body the stress strain graph is always linear, meaning stress is always proportional to the strain through a constant i.e., the young's modulus of elasticity which is proportional to the slope of the linear property of the stress strain graph. if a body is ideally plastic it means to have infinite linear line from the centre of the stress strain graph. A linear line like this could have any slope=tan θ. this linear line could have any angle meaning any slope can values between 1 and 0 implying that young's modulus could be any value.

If there's a body moving in a circle with constant speed, and you come along and do work on it, then either its speed will change, or it will depart from the circle, or both. The force that's keeping it on the circular path is not doing any work on it.

The increase in body size without change in shape can mean a few things. This could just be a sign of growth.

Distance you read off directly from the graph. Speed is the rate of increase of distance, so it is the slope (gradient) of the graph.

The instantaneous slope at any point along the graphed line is the speed at that point in time.