Your problem statement has an equation for x(t) does it not?Indranil said:Where to put the values because we have the values of t but there are no values of x
No, the only equation is 'x=a+bt^2'gneill said:Your problem statement has an equation for x(t) doe it not?
So find x when t=2 and find x when t=4, then you'll have all the data you need.average velocity between t=2.0 s and t= 4.0 s
Indranil said:No, the only equation is 'x=a+bt^2'
I am doing this belowMerlin3189 said:So find x when t=2 and find x when t=4, then you'll have all the data you need.
1. Average velocity = TotalDisplacement / TotalTimeMerlin3189 said:1- what is average velocity?
2- what do your two x values tell you?
Sorry, I didn't check this before. You forgot to square the time.Indranil said:x=a +bt^2 =8.5 +2.5 x 4 =18.5 (when t=4)
x=at + bt^2 =8.5 + 2.5 x 2 =13.5 (when t=2)
see the values below
(a=8.5m, b=2.5 ms^-2, t=2.0 s and t= 4.0 s)
It would be x=a+bt^2Merlin3189 said:Sorry, I didn't check this before. You forgot to square the time.
Also there is some confusion between, x=a +bt^2 and x=at + bt^2
In the question statement, you gave the first version.
But your last post is correct in your statement of average velocity and working from your previous results. You just need to check those first calculations.
I did but still, the answer does not match the answer in my book.Merlin3189 said:Ok. That's what it said in the Q and it is consistent with the units given for a and b.
So now you can get the right values if you stick to this equation and take care with squaring t.
Double check your position calculation for t = 4 s.Indranil said:I did but still, the answer does not match the answer in my book.
As you said I have done below
X=18.5 when t=2 and X=40 when t==4 now according to the average velocity
Vavg=xf-xi / tf-ti = 21.5 /2 ms^-1
Thank you for finding my mistake. I checked it and it's done. Now the answer is 15m/s. Thank you all for your kind efforts.gneill said:Double check your position calculation for t = 4 s.
The formula for average velocity is average velocity = (change in position) / (change in time). This means that you divide the change in position by the change in time to get the average velocity.
The change in position is the final position minus the initial position. For example, if an object starts at position 10 and ends at position 20, the change in position would be 20 - 10 = 10.
The units for average velocity are distance over time, such as meters per second or kilometers per hour. It is important to use consistent units for both distance and time in order to get an accurate average velocity.
Yes, average velocity can be negative. This indicates that the object is moving in the opposite direction of the positive direction, or towards the negative direction. For example, if an object moves from position 10 to position 5, its average velocity would be negative because it is moving towards the negative direction.
Average velocity is the overall velocity of an object over a period of time, while instantaneous velocity is the velocity of an object at a specific moment in time. Average velocity takes into account the total change in position and time, while instantaneous velocity only considers a specific point in time.