Clarification between average velocity and average speed

AI Thread Summary
Average velocity is calculated by dividing total displacement by total time. Average speed, on the other hand, requires measuring total distance traveled over total time, not just averaging speeds. The formula (v1 + v2) / 2 is applicable when an object moves at speeds v1 and v2 for equal time periods, particularly under constant acceleration. For constant acceleration in a straight line, the average speed and velocity can be found using the average of initial and final speeds. Understanding these distinctions is crucial for accurate calculations in physics.
cmkc109
Messages
103
Reaction score
0
To find average velocity, you do total displacement over total time
To find average speed, you add up the speeds / total speeds there are? (Eg. (10+20)/2)

Am I correct?
 
Physics news on Phys.org
cmkc109 said:
To find average velocity, you do total displacement over total time

Correct.

To find average speed, you add up the speeds / total speeds there are? (Eg. (10+20)/2)

No, you take the total distance along the path traveled, over the total time. For "total distance", imagine tracing out the path with a string, then straightening the string and measuring its length with a ruler.
 
thanks for your reply! but when do you use v1 + v2 /2 ? or did i remember this wrong?
 
cmkc109 said:
thanks for your reply! but when do you use v1 + v2 /2 ? or did i remember this wrong?

You can use (v1+v2)/2 for the average speed if you first moved with speed v1 and then with speed v2 for the same amount of time. (not for the same amount of distance).

For constant acceleration in a straight line, the average speed (and velocity as well) is \frac {v_i + v_f}{2}. the average of initial and final speed.
 
cmkc109 said:
thanks for your reply! but when do you use v1 + v2 /2 ? or did i remember this wrong?
Hi. I think you forgot some parentheses.

You use that formula when acceleration is constant and you need to find the velocity at a time midway between the time that you measure velocity as v1 and the time you measure velocity as v2.
 

Thread 'Derivation of Hamilton's Principle: Questions'

I have recently been really interested in the derivation of Hamiltons Principle. On my research I found that with the term ##m \cdot \frac{d}{dt} (\frac{dr}{dt} \cdot \delta r) = 0## (1) one may derivate ##\delta \int (T - V) dt = 0## (2). The derivation itself I understood quiet good, but what I don't understand is where the equation (1) came from, because in my research it was just given and not derived from anywhere. Does anybody know where (1) comes from or why from it the...
View full post »

Similar threads

B Average Speed vs. Velocity: Explained
Replies
10
Views
3K
Power required to reach X velocity in X time with drag
Replies
10
Views
2K
Uses of the average velocity/speed
Replies
7
Views
1K
Why Can a Sound Wave Not Travel Faster than the Average Molecule Speed?
Replies
23
Views
4K
B Understanding Average Velocity in Linear Motion with Constant Acceleration
Replies
1
Views
1K
I Summing and averaging RMS pressure (amplitude) of sound waves
Replies
2
Views
2K
Can Distance Traveled be Calculated Mathematically in Average Speed?
Replies
16
Views
6K
Calculate the Angular Velocity of an Arm from a Data Set
Replies
4
Views
9K
What’s the Key Difference Between Velocity and Speed in Air Travel?
Replies
2
Views
1K
Average Speed and Average Power confusion
Replies
3
Views
2K

Hot Threads

Recent Insights

Back
Top