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Q: What does terminal velocity look like on a distance v time graph?
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Graphical representation of motion?

Position-Time GraphYou can graph motion on a position vs time graph. On a position vs time graph, position is on the y-axis and time is on the x-axis. If the velocity is constant, the graph will be a straight line and the slope is average velocity. If the motion is accelerating, the graph will be a curved line.Velocity-Time GraphYou can also graph motion on a Velocity-Time graph. On a velocity vs time graph, velocity is on the y-axis, time is on the x-axis. If the graph is a straight line, velocity is constant and the slope is average acceleration. Also, on a velocity vs time graph, the area under the line is displacement.Refer to the related link for illustrations of the different graphs of motion and their meanings.


What does the slope of the line on a position versus time graph tell you about the objects speed?

The distance versus time graph shows the position of the object. The slope of the line shows the velocity of the object. The velocity is the direction and speed of an object. If your slope has a positive slant that means you are going in a positive direction. If the slope has a negative slant your object is going in a negative direction. If your slope is zero (a horizontal line) that means your object has stopped and is about to change directions. In case you didnt know a positive slant looks like this on a graph.... / a negative slant looks like this on a graph.... \ postive is like sloping up a hill negative is like falling down the hill


How is deceleration represented on a velocity per time graph?

It is radial the velocity in a direction towards or away from a fixed point of reference (the origin) at a given time. The velocity time graph takes no account of motion in a direction across the radial direction.


What is the terminal velocity of a car?

Assuming atmospheric conditions density of air being 0.0765 pounds/cu. ft. and assuming the car weighs 4000 lbs with dimensions of 6'x15'x5', with a drag coefficient of approximately 0.2...The terminal velocity of a car under these conditions would be about 52 mph. This is assuming it's falling flat. If the car was falling pointing down, the terminal velocity would be something more like 90mph. Obviously this answer will vary by changing the assumptions.


How can you calculate acceleration from a velocity-time graph?

simply put the acceleration is the slope of the speed vs time graphTheory Partthink of it this way. the unit for speed is meters per second or m/sthe unit for acceleration is meters per second per second or m/s2so essentially if speed is the change in position per change in time, acceleration is the change in speed per change in time.Practical Partnow for the actual answer. look at the slope of your speed vs time graph at any time. that slope is the acceleration at that time. If you find the slope between two points on your graph, that gives you the average acceleration over that interval of time.

Related questions

What does a zero velocity graph look like?

In a velocity-time graph it will be the time axis (where velocity = 0). On a distance-time graph it will be a line parallel to the time axis: distance = some constant (which may be 0).


What does the graph of distance vs time look like for something going a constant velocity?

It looks like a line steadily getting higher and higher


Graphical representation of motion?

Position-Time GraphYou can graph motion on a position vs time graph. On a position vs time graph, position is on the y-axis and time is on the x-axis. If the velocity is constant, the graph will be a straight line and the slope is average velocity. If the motion is accelerating, the graph will be a curved line.Velocity-Time GraphYou can also graph motion on a Velocity-Time graph. On a velocity vs time graph, velocity is on the y-axis, time is on the x-axis. If the graph is a straight line, velocity is constant and the slope is average acceleration. Also, on a velocity vs time graph, the area under the line is displacement.Refer to the related link for illustrations of the different graphs of motion and their meanings.


What does the slope of the line on a position versus time graph tell you about the objects speed?

The distance versus time graph shows the position of the object. The slope of the line shows the velocity of the object. The velocity is the direction and speed of an object. If your slope has a positive slant that means you are going in a positive direction. If the slope has a negative slant your object is going in a negative direction. If your slope is zero (a horizontal line) that means your object has stopped and is about to change directions. In case you didnt know a positive slant looks like this on a graph.... / a negative slant looks like this on a graph.... \ postive is like sloping up a hill negative is like falling down the hill


What is the difference between terminal speed and terminal velocity?

The difference between terminal speed and terminal velocity is really simple. Terminal speed can be used to refer to the maximum speed an object can reach before factors like friction prevent anymore speed to be gained. Terminal velocity, however, generally refers to the rate at which this speed was gained.


What does a velocity and time graph look like?

indirect proportionality


Why is the slope of a distance velocity squared graph straight and a distance velocity graph is not?

When acceleration is constant, one equation of kinematics is: (final velocity)^2 = 2(acceleration)(displacement) + (initial velocity)^2. When you are graphing this equation with displacement or position of the x-axis and (final velocity)^2 on the y-axis, the equation becomes: y = 2(acceleration)x + (initial velocity)^2. Since acceleration is constant, and there is only one initial velocity (so initial velocity is also constant), the equation becomes: y = constant*x + constant. This looks strangely like the equation of a line: y = mx + b. Therefore, the slope of a velocity squared - distance graph is constant, or there is a straight line. Now, when you graph a velocity - distance graph, the y axis is only velocity, not velocity squared. So if: v^2 = mx + b. Then: v = sqrt(mx + b). Or: y = sqrt(mx + b). This equation is not a straight line. For example, pretend m = 1 and b = 0. So the equation simplifies to: y = sqrt(x). Now, make a table of values and graph: x | y 1 | 1 4 | 2 9 | 3 etc. When you plot these points, the result is clearly NOT a straight line. Hope this helps!


Does terminal speed and terminal velocity are the same?

Yes, but only in free-fall. If I'm driving at 60 mph, I have a constant velocity, but it's not my "terminal velocity" in the sense that there is no limit to my acceleration caused by air friction. But yes, an object in free-fall reaches its terminal velocity when its velocity stops increasing (acceleration=0).


The greatest velocity a falling object reaches?

The greatest velocity that a falling object can achieve is termed, terminal velocity. The equation for terminal velocity is equal to the square root of (2mg / (air density * projected area * drag coefficient))


What are the difference between distance and velocity?

Velocity is how high something goes like if you throw a baseball up. Distance is how far you throw thatbaseball


How long will it take a skydiver to fall 1000 at terminal velocity?

Terminal velocity, if you are flat toward the ground is about 180 feet per second; so time is distance/speed = 1000 feet/180 = 5.5 seconds. If you roll up like a ball terminal velocity may be as high as 280 feet per second. and time would be about 3.5 seconds.


A distance-time graph of constant speed looks like this?

The graph is a straight line. Its slope is the speed.