Outlet units now available

Month: May 2018

The Furo X is sold out for delivery in May and 10 days left for 25% DISCOUNT

Taking our bikes from paper directly to you and making them your new favorite way of commuting, cycling or just having fun has truly been a formidable adventure and keeps getting better!The FURO community is growing day after day and we have officially just sold out our batch of FX for delivery in May. The SIERRA is almost gone as well with only 2 left in stock.

As most of you are aware, our 25% discount is also ending very soon. You can rest assured that it still applies to all purchases made through our website until it expires. This means that our next batch of SIERRA and FX is still covered by the discount until the 15/05. It is currently planned for delivery in September, although it will most likely come earlier than this as we are working very hard to accelerate our production rate and optimise our supply chain.

If you are thinking about getting a FX or a SIERRA, we strongly advise to make the most of the discount, particularly as our next batch will also have a limited stock.

We are always available and very happy to help you, so if you have any questions or requests please don’t hesitate to contact us.

The Physics Behind Electric Bikes Through Numbers

Our stock of FX and SIERRA for delivery in May has almost run out, and that is a lot earlier than we anticipated. You guys are loving it and to celebrate that, we are going to give you a short but complete article on the physics governing your ebikes rides.Let’s start with the protagonist itself, the ebike, here we will have a look at the SIERRA in particular. The SIERRA is made of a full carbon frame which has to be structurally strong enough to support the sum of your weight, the ebike’s weight with all its components, and the weight multiplication and shocks due to bumps and other obstacles on the road. In addition to all the typical bicycle equipment (disk brakes, gears, chain pedals, wheels, etc) the SIERRA’s frame also has to carry a motor, a battery, an electronic controller and a computer. These components are all relatively heavy with respect to the frame of the bike but remain light once you add your weight to the equation, even for the skinniest of you.

SIERRA Configuration

The SIERRA is equipped with a torque sensor which measures how much pressure you are exerting on the pedals. In turn, it sends a message to the controller which calculates how much power from the motor is immediately required. At the same time, the computer scales the controller’s calculations with respect to the assist level you are set on. Eventually, the controller which is connected to the battery opens a channel between the battery and the motor and allows high power currents to flow in a certain pattern so as to activate the motor and power your ride.

This then makes you go forward and pick-up speed. We will now focus on what is happening once you have reached a speed of 20km/h and are accelerating by 1km/h per second or reaching 25km/h after 5 seconds on a flat asphalt road. According to the second law of Newton, all the forces acting on the bike and yourself while you move forward are equal to your total mass multiplied by your acceleration. This can be written:

with F the sum of the forces in Newtons, m the total mass in kgs and your acceleration in m/s².

Sir Isaac Newton

The forces acting on the bike and yourself while you are moving are:

  • Your own applied through the back wheel of the SIERRA: we will call it Fy and it is measured in Newton
  • The motor’s applied through the back wheel and the chain of the SIERRA: we will call it Fm and it is in Newton
  • The aerodynamic drag, due to your movement through the air of the atmosphere, which can be calculated in Newton using the following equation:
    with Cd the coefficient of drag, p the density of the air, V your velocity and A your frontal area.
  • The rolling resistance of the tyres on the road which can be calculated in Newton using:
    with Cf the rolling resistance coefficient of the tyres on the road, m your mass in kg and g the gravitational constant g=9.81m/s², m*g is essentially the force in Newton exerted downwards by your weight on the bike.

FuroSystems SIERRA Sum of Forces

First of all, we can calculate the drag. In a standard relaxed cycling position on the SIERRA, your frontal area is likely to be 0.6m² and your coefficient of drag: 1.15. The density of the air at sea level is 1.225 kg/m3 and your velocity is 20km/h which is equivalent to 5.6 m/s.

So we get: D = 0.5 * 1.15 * 1.225 * 5.6² * 0.6 = 13 N.
The rolling resistance coefficient of bicycle tyres on asphalt is equal to 0.004, assuming you are 75kgs, the weight of the SIERRA being 20kgs, your total weight becomes 95kgs.

Hence, your rolling resistance is Fr = 0.004*95 = 0.38 N.
So the sum of the forces can now be written:

Fy + Fm – D – Fr = m*a

with m your total weight (95kgs) and your accelerations in m/s².

Also, note that the sign of the forces in the sum depends on the direction these forces are acting. If they act in the direction of the movement, then they are positive, if they act in the opposite direction, they are negative. We can replace the variable with the values we calculated knowing that an acceleration of 1km/h/s is equivalent to 0.28 m/s²:

Fy + Fm – 13 – 0.38 = 95 * 0.28 which is equivalent to Fy + Fm = 40 N
We know that the wheels of the SIERRA measure about 0.70m in diameter and therefore 0.35m in radius. We also know that torque is a force multiplied by a distance. Hence, the torque generated by the combined efforts of your legs and the SIERRA’s motor is 40*0.35=14 Nm. We can even get the total power by multiplying this by the angular velocity of the wheel, or the speed at which it rotates. We know that its perimeter is 2 * PI * Radius = 2.2m. As we are going at 5.6m/s, this gives 2.5 rotations of the wheels per second or an angular velocity of 15 rad/s (multiply by 2 * PI).

Hence, on a flat asphalt road, in order to maintain an acceleration of 1 km/h per second while being at a velocity of 20km/h, the total power needed from you and the SIERRA together is 15*14= 210W.

As the BOFEILI mid-motor of the SIERRA produces 350W of continuous power and more than 600W of peak power, at this cadence you will only be exploiting a third of the power of the beast. Depending on your assist level, you can either fully provide the 210W through your legs or entirely rely on the SIERRA, it’s your choice and that is the magic of electric cycling!

Do not hesitate to ask questions in the comments, we will be happy to answer them if anything needs to be made clearer!

Scroll to top