answersLogoWhite

0

The shape of the displacement versus time graph for a skydiver would be a curve that starts at zero displacement when the skydiver jumps out of the plane, increases as the skydiver falls accelerating due to gravity, and eventually levels off as the skydiver reaches terminal velocity. The curve will then be a straight line at a constant displacement representing the terminal velocity until the skydiver opens the parachute, at which point the displacement will decrease as the skydiver slows down and lands.

User Avatar

AnswerBot

1y ago

What else can I help you with?

Related Questions

What shape would the displacement versus time for this skydiver be?

hg


What would be the shape of a displacement versus time graph for an object?

the displacement mean the shortest distance between two points. the shape of displacement where the objects move and its also help us to tell the shape of displacement with the use of graph.


Is velocity the slope of the displacement vs time graph true or false?

True. Velocity is the rate of change of displacement with respect to time, which is represented by the slope of the displacement versus time graph.


What type of motion is occurring when the slope of a line is not zero?

Assuming the graph is for displacement versus time, the motion should be constant velocity. If velocity versus time motion is constant acceleration


What is the shape of displacement time graph for uniform motion?

The shape of the displacement-time graph for uniform motion is a straight line with a constant slope. This indicates that the object is moving at a constant speed in a straight line.


How do you get displacement from a displacement graph?

To calculate displacement from a displacement graph, find the area under the curve. If the graph is a straight line, you can subtract the initial position from the final position. If the graph is not a straight line, calculate the integral of the graph to determine the total displacement.


What shape do you expect for a graph showing the position of a motorcycle versus time if the motorcycle is speeding up with a constant acceleration?

The position versus time graph is parabolic.


When is the shape of an position versus time graph parabolic?

If a position versus time graph is parabolic, then:Speed versus time is a straight line.Acceleration (magnitude) vs time is a horizontal line, so the acceleration is constant.The graph of height/time for a stone or a baseballtossed upward is an inverted parabola.


When the skydiver steps out of the helicopter someone who's watching starts a stopwatch. So the time is zero as the skydiver steps out of the plane. What is the skydiver's downward velocity at that?

At the moment the skydiver exits the helicopter, their downward velocity is initially zero. As they fall due to gravity, their velocity will increase over time.


Area under the velocity versus time graph?

Area under velocity versus time graph(between two given instances of time i.e. two points on time axis) gives the displacement of the body( whose graph was plotted) between those two instances i.e. in that time interval. Area under velocity time graph can be found from definite integration if the graph is a curve. Note: Area under velocity versus time graph gives displacement not distance covered by body. Note: Area enclosed between the plotted curve and time axis is taken. For convenience time should be taken in the x-axis.


What does the slope under the curve of a displacement versus time reveal?

There is no such thing as a "slope under the curve", so I assume that you mean "slope of the curve". If the curve is d vs. t, where d is displacement and t is time, then the slope at any given point will yield (reveal) the velocity, since velocity is defined as the rate of change of distance with respect to time. Mathematically speaking, velocity is the first derivative of position with respect to time. The second derivative - change in velocity with respect to time - is acceleration.


What is the shape of the displacement time graph of a body moving with uniform velocity?

The displacement-time graph of a body moving with uniform velocity is a straight line. This indicates a constant rate of change of displacement with respect to time. The slope of the line represents the uniform velocity, remaining constant throughout the motion. If the velocity is positive, the line rises; if negative, it descends.