Can somebody please tell me how I calculate how much torque is required to turn a wheel to move an object weighing 80Kgs

You need to get more specific. Are you trying to lift the 80 Kg weight (like with a hoist)? You will also have to tell us the diameter of the wheel.

I thought as much. The weight will be on a platform which is supported by 2 wheels, one at either end. The diameter of the wheels is 150mm. If you need anymore information pleae let me know. I appreciate your help.

So each wheel needs to support the weight of 40 Kg, right? See the figure - ignoring the weight of the platform, and assuming that the weight is placed midway between the two support ropes, then each rope has tension of 392 Newtons (from F = mg). Given a moment arm of 0.15m, the resulting torque on each wheel is 392 N * 0.15m = 59.95 N-m.

I think we are talking about different things. What I am trying to calculate is the torque required to turn the wheels (Diameter=150mm) of a scooter with a person weighing 80KG standing on it. Assuming that it is travelling on a level surface.

In that case you need to tell us how much quickly you want the scooter to accelerate. The torque you need to apply through the wheels against the ground would then be:

Torque = 80 Kg * a * 0.15 m

where "a" is the acceleration in m/s^2.

Speed = 5m/s. Are you able to calculate how long it would take to reach that speed? Can you explain how I can produce a graph showing speed v's time and maybe the amount of torque required to reach these speeds. I assume that he torque would change as speed increases?

As described in my earlier answer - Torque and acceleration are tied together through:

Torque = 80 Kg * 0.15m * a

This allows you to determine how much torque you need for a given acceleration, or conversely what acceleration you will get for a given torque. You need to specify one or the other. Once you do that, the time it takes to reach a given velocity comes from standard formula for acceleration: v = at. If v = 5 m/s, then once you have a value for the aceleration "a" you can calculate the time it takes to get to that speed.

OK so if a = 1m/s²

Assume that the scooter is at rest at time 0.
At time t, its linear speed = v
and angular speed = w

Then w = v/R
where R = radius of the wheel
Let angular acceleration = alpha
If alpha is constant, then torque is constant.
alpha = (w - )/t = w/t = v/(Rt)
Torque = I * alpha
= I * v/(Rt),
where I = moment of inertia of the wheel

You have written that you want to plot a graph between v and torque. That will not be proper because the same torque will produce different speeds at different times.
Or do you want to keep time as fixed? If so, then : -
Torque = I*v/(Rt)
This sows that torque is proportional to v. So the graph will be a straight line passing through origin.

Quote:

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Originally Posted by gmlittle_01

OK so if a = 1m/s²

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Just plug 1 m/s^2 into the formula I gave you to determine the torque required from your motor to accelerate at 1 m/s^2:

Torque = 80 Kg * 0.15m * a
= 12 Newton-meters

The velocity would be V = 1m/s^2 * t, so it would take 5 seconds to reach 5 m/s.

Visharad - your approach assumes that the problem here is to spin a wheel (i.e. torque used to overcoe the inertia of the wheel). But this problem is different - it's to get a scooter moving forward, and I think you can assume that the inertia of the wheel is insignificant.

Yes, I assumed that the question is to find torque to spin the wheel. That is what the question appeared to me.
It will be good if the gmlittle_01 posts the complete question in a single post. Then it will be quite clear what he really wants to know.

Hi Guys, thanks for all you help, hopefully the following will make things clear:

I would like to find out what torque is required to turn the wheels (Diameter = 0.15m) of a scooter which is being riden along the ground carrying a person that weighs 80KG.

Is it also possible to calculate what the torque is from a standing start i.e to start turning the wheels, and then what the torque is required to keep the scooter traveling at 5m/s.

It would also be useful to know how the torque changes when the scooter is travelling up hill keeping at a constant speed of 5m/s. You will probably need to know what the steepness of the hill is, but maybe this can be plotted on a graph which shows how the torque increases versus the steepness.

Are you trying to find the following?
1. There is a scooter, whose wheels are of diameter 0.15 m each. The only person seated on the scooter is the driver. His weight is 80 kg. The wheels are not moving and the scooter is at rest .
What torque is needed just to make the wheels start rotating?

2. Now the wheels have just started rotating. What torque is needed to increase the speed of the scooter to 5 m/s?

3. The scooter is moving at 5 m/s. What torque is needed to maintain this 5 m/s speed?

4. The scooter is moving horizontally at 5 m/s. Now the scooter has to go on a hill of a given angle of inclination. But the speed should remain at 5 m/s. What torque is needed to bring the scooter from the horizontal to the hill?

5. How the torque in (4) depends on the angle of inclination of the hill?

Is my understanding of your questions correct?

Yes all correct

Radius R = 0.15 m/2 = 0.075 m
I am calculating torque on a single wheel about the axis of this wheels.

1)Let u = coefficient of static friction between the wheels and the road,
M = mass of the scotter + driver on it
Sum of normal forces on the two wheels by the road = weight = Mg
Normal force on one wheel = Mg/2
Maximum static friction on the wheel = u*Mg/2
Force on that wheel required to make the wheel turn = u*Mg/2
Torque on the wheel = u*(Mg/2)*R = (u*Mg*R)/2

This is the torque required to make one wheel start turning.
I have assumed that there is symmetry in the sense that normal forces and friction forces on the wheels are equal.

2)Initial speed vo = 0
Final speed v = 5 m/s
Initial angular speed wo = vo/R = 0
Final angular speed w = v/R
Let time taken to change the speed = t
Angular acceleration alpha = (w - wo)/t = w/t = v/(Rt)
Let moment of inertia of the wheel = I

Then torque = I * alpha
= I * v/(Rt)
For a given value of v, you can find torque as a function of t according to the above equation.
The value of I depends on the shape of the wheel and the mass distribution in it.
Note: You will need mass to find the value of I. You should use mass of only the wheel here.

can the motor shown in the link below move a person at a speed of 20km/h taking acceleration to be 6m/(s^2) provided the dia of the wheel is 15cm..?
consider that 4 of these motors share the load equally.
http://robokits.co.in/shop/index.php?main_page=product_info&cPath=2&products_ id=328

if not can this motor satisfy the required conditions with a little less speed
http://robokits.co.in/shop/index.php?main_page=product_info&cPath=2&products_ id=212

The links you provided results in a page that's says "Sorry, the product was not found."

The torque that the motor(s) need to provide is equal to:



where m = mass of the man (you don't provide a number so let's assume 100 Kg), a = acceleration of theman = 6m/s^2, and r =radius of the gear that is driving the conveyor belt = 0.15/2 m.
So:

Any idea of the torque required to rotate the gear section present on the handle bar of a scooter