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## Physics library

### Course: Physics library > Unit 1

Lesson 3: Acceleration- Acceleration
- What is acceleration?
- Airbus A380 take-off time
- Airbus A380 take-off distance
- Why distance is area under velocity-time line
- What are velocity vs. time graphs?
- Acceleration vs. time graphs
- What are acceleration vs. time graphs?
- Acceleration and velocity

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# What are velocity vs. time graphs?

How to analyze graphs that relate velocity and time to acceleration and displacement.

## What does the vertical axis represent on a velocity graph?

**The vertical axis represents the velocity of the object.**This probably sounds obvious, but be forewarned—velocity graphs are notoriously difficult to interpret. People get so used to finding velocity by determining the slope—as would be done with a position graph—they forget that for velocity graphs the value of the vertical axis is giving the velocity.

Try sliding the dot horizontally on the example graph below to choose different times and see how the velocity changes.

$$

$$

**Concept check: What is the velocity of the object at time t, equals, 4, start text, space, s, e, c, o, n, d, s, end text, according to the graph above?**

## What does the slope represent on a velocity graph?

**The slope of a velocity graph represents the acceleration of the object.**So, the value of the slope at a particular time represents the acceleration of the object at that instant.

The slope of a velocity graph will be given by the following formula:

Since start fraction, delta, v, divided by, delta, t, end fraction is the definition of acceleration, the slope of a velocity graph must equal the acceleration of the object.

This means that when the slope is steep, the object will be changing velocity rapidly. When the slope is shallow, the object will not be changing its velocity as rapidly. This also means that if the slope is negative—directed downwards—the acceleration will be negative, and if the slope is positive—directed upwards—the acceleration will be positive.

Try sliding the dot horizontally on the example velocity graph below to see what the slope looks like for particular moments in time.

$$

The slope of the curve is positive between the times t, equals, 0, start text, space, s, end text and t, equals, 2, start text, space, s, end text since the slope is directed upward. This means the acceleration is positive.

The slope of the curve is negative between t, equals, 2, start text, space, s, end text and t, equals, 8, start text, space, s, end text since the slope is directed downward. This means the acceleration is negative.

At t, equals, 2, start text, space, s, end text, the slope is zero since the tangent line is horizontal. This means the acceleration is zero at that moment.

**Concept check: Is the object whose motion is described by the graph above speeding up or slowing down at time t, equals, 4, start text, space, s, end text?**

## What does the area under a velocity graph represent?

**The area under a velocity graph represents the displacement of the object.**To see why, consider the following graph of motion that shows an object maintaining a constant velocity of 6 meters per second for a time of 5 seconds.

To find the displacement during this time interval, we could use this formula

which gives a displacement of 30, start text, space, m, end text.

Now we're going to show that this was equivalent to finding the area under the curve. Consider the rectangle of area made by the graph as seen below.

The area of this rectangle can be found by multiplying height of the rectangle, 6 m/s, times its width, 5 s, which would give

This is the same answer we got before for the displacement.
The area under a velocity curve, regardless of the shape, will equal the displacement during that time interval.

## What do solved examples involving velocity vs. time graphs look like?

### Example 1: Windsurfing speed change

A windsurfer is traveling along a straight line, and her motion is given by the velocity graph below.

**Select all of the following statements that are true about the speed and acceleration of the windsurfer.**

(A) Speed is increasing.

(B) Acceleration is increasing.

(C) Speed is decreasing.

(D) Acceleration is decreasing.

(B) Acceleration is increasing.

(C) Speed is decreasing.

(D) Acceleration is decreasing.

**Options A, speed increasing, and D, acceleration decreasing, are both true.**

The slope of a velocity graph is the acceleration. Since the slope of the curve is decreasing and becoming less steep this means that the acceleration is also decreasing.

It might seem counterintuitive, but the windsurfer is speeding up for this entire graph. The value of the graph, which represents the velocity, is increasing for the entire motion shown, but the amount of increase per second is getting smaller. For the first 4.5 seconds, the speed increased from 0 m/s to about 5 m/s, but for the second 4.5 seconds, the speed increased from 5 m/s to only about 7 m/s.

### Example 2: Go-kart acceleration

The motion of a go-kart is shown by the velocity vs. time graph below.

**A. What was the acceleration of the go-kart at time t, equals, 4, start text, space, s, end text?**

**B. What was the displacement of the go-kart between t, equals, 0, start text, space, s, end text and t, equals, 7, start text, space, s, end text?**

#### A. Finding the acceleration of the go-kart at t, equals, 4, start text, space, s, end text

We can find the acceleration at t, equals, 4, start text, space, s, end text by finding the slope of the velocity graph at t, equals, 4, start text, space, s, end text.

For our two points, we'll choose the start—3, start text, space, s, end text, comma, 6, start text, space, m, slash, s, end text—and end—7, start text, space, s, end text, comma, 0, start text, space, m, slash, s, end text—of the diagonal line as points one and two respectively. Plugging these points into the formula for slope we get

#### B. Finding the displacement of the go-kart between t, equals, 0, start text, space, s, end text and t, equals, 7, start text, space, s, end text

We can find the displacement of the go-kart by finding the area under the velocity graph. The graph can be thought of as being a rectangle (between t, equals, 0, start text, space, s, end text and t, equals, 3, start text, space, s, end text) and a triangle (between t, equals, 3, start text, space, s, end text and t, equals, 7, start text, space, s, end text). Once we find the area of these shapes and add them, we will get the total displacement.

The area of the rectangle is found by

The area of the triangle is found by

Adding these two areas together gives the total displacement.

## Want to join the conversation?

- How would you calculate the average speed on a velocity/time graph?(24 votes)
- On a position vs time graph, the average velocity is found by dividing the total displacement by the total time. In other words, (position at final point - position at initial point) / (time at final point - time at initial point).(3 votes)

- In the last graph, to find the area of the area under the graph couldn't we use the formula of a trapezoid?(11 votes)
- Yeah, you can use the formula of a trapezoid

Area of a trapezoid = 1/2 * sum of the parallel sides * the distance between them

Area of the trapezoid = displacement

= 1/2 * (7 + 3) * 6

=30

thus, the displacement = 30m(6 votes)

- When distance (r) between two objects is zero i.e they are touching each other, the the G force between them must be

F = g X m1Xm2/r2

=gXm1Xm2/0 square

= infinite

That means the force by which they both attract each other is infinite, so they cannot be separated at all. How is this possible?(1 vote)- It's very important to understand that the distance r "between objects" is not the distance between their surfaces, but the
**distance between their centers**. So when a person is standing on the earth, and we want to use that formula to find the force between them, we don't say "r = 0 because they are touching", we say "r = 6400 km, the distance between the the center of the earth and the center of the person".(18 votes)

- Is acceleration both for speed and velocity? Cuz' now I'm getting confused(4 votes)
- When a position vs time graph is concave up, the acceleration is increasing. When a position vs time graph is concave down, the acceleration is decreasing.(3 votes)

- If a curve represents the motion(velocity) of a body, then when the curve slopes downwards, is it just slowing down compared to the previous velocity or is it the fact that it immediately decelerates or else is it the case as if it moves too another direction as indicated by the y-axis?(6 votes)
- When (on a Position time-graph), the line (which represents velocity) is sloping downwards, it means that the object is moving in the opposite direction and has nothing to do with acceleration or deceleration.

Acceleration and deceleration can be determined by the slope, if the velocity is decreasing, the it is decelerating and and if the speed is increasing, there is acceleration.(3 votes)

- Can speed decrease over time, but acceleration increase over time? If yes, how is it possible?(4 votes)
- If you had a ball traveling to the right at a speed and then you applied a force impeding that movement that becomes bigger in magnitude. the speed of the object would decrease because of the force acting opposite its direction of motion however the acceleration of the ball would increase because of the increasing force acting upon it. This is how you can achieve the situation you described.(5 votes)

- Can the rise also be referred to as the fall? On finding the slope on a velocity graph, it states that the rise over the run will be referred to as acceleration. If the rise is going downwards, can it be referred to as the fall?(2 votes)
- You will never see that terminology (in my experience). Thinking about it intuitively, you would just say that the rise is negative, making the slope negative.

Hope this helps,

- Convenient Colleague

Note: A more precise method of thinking of slope instead of rise/run is Δy/Δx = change-in-y/change-in-x. This way it doesn't incorrectly make you think that we are rising.(9 votes)

- So you can only use average velocity to find displacement when the acceleration is constant? Which you could still do on this breaking it up where the acceleration is zero and where its 3/2 per second(4 votes)
- You can always use average velocity to find displacement.

Calculating the average becomes more difficult if acceleration is not constant.(5 votes)

- if I have a problem like justin drives west at 20M per S then slows down to stop at a red light and there is a graph that shows his velocity over time where westword is negative and asks for the acceleration what doesthe diretions have to do with this i mean what ireally want is the slope and if it is constant or not and the velocity on the y axis so there is really no use from knowing thedirections ofhis motion(3 votes)
- The direction tells you if his change in velocity is negative or positive.(6 votes)

- If the triangle is stated to be between t=3s and t=7s, why was t=4 used in the Triangle Formula?(4 votes)
- Bcuz you're trying to find the base, the base being 4 (the distance between 3 and 7).(3 votes)