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We recommend our Mule Step-Through (ST) model for our customers with a shorter leg length, or those that have difficulty getting on and off of a traditional fat-tire, eBike. The Mule ST is built exactly like the Mule with the exception of a lower top tube allowing for a shorter stand over height. This allows for greater ease in getting on and off of the bike.
This beast is built to pack like a mule with the suspension and gearing to get you there fast. On a quick trail ride or a week in the backcountry, the Mule ST can handle anything you throw at it.
The Mule ST was designed and engineered around the unparalleled power and performance of Bafangs ULTRA mid-drive motor. The Ultra motor is widely recognized as the “diesel engine” of mid-drive motors! It’s all metal, heavy-duty gearing, combined with the intelligence of an integrated torque sensor, make the Ultra motor the most capable, durable, and efficient motor on the planet.
The Ultra motor is also referred to as a “smart motor.” The speed, cadence, shift, brake, and torque sensors provide continuous feedback from the rider to the motor. This allows the motor to deliver exactly what you ask. What you get, is a very natural feeling ride, even while providing a tremendous amount of torque and power output.
Test ride one today, and see for yourself, why the Bakcou Mule has been the #1 selling fat-tire eBike on the market for 2 years, and why this hardtail eBike is in a class of its own!
The range of your electric bike refers to the distance you can ride on a single charge. Assessing the range of an electric bike can be difficult, as it varies from person to person. All electric bikes are advertised as having a particular range, but these advertised ranges are usually inaccurate and some can be quite exaggerated. In extreme cases, advertised ranges could even be four times higher than the realistic range. It's nearly impossible for electric bike range claims to be completely accurate because so many factors depend on the individual rider and the riding conditions.
Factors to consider when estimating range include:
While most people want to have the most powerful bike motor they can afford, it's important to note that motor power only impacts how fast you can pull off and how well you can get up hills. Motor power does not necessarily impact how far you can go. When it comes to electric bike range, the most important variable to consider is the battery capacity.
Battery capacity is usually measured in Watt-hours (Wh), where Watt-hours= amp-hours x volts. The Watt-hours calculation is important because it determines the range of your electric bike, or how far you can go.
1. Bike A has a 24V - 20Ah battery: 24V x 20Ah = 480Wh
2. Bike B has a 48V - 10Ah battery: 48V x10Ah = 480Wh
3. Bike C has a 24V - 6Ah battery: 24V x 6Ah = 144Wh
Bikes A and B have a similar amount of energy. If Bike A and Bike B have equal motors and riders, they will perform in a very similar fashion. The bike with the higher voltage battery will accelerate faster and climb better — but that will be at the expense of some of that energy. On the other hand, Bike C will not take you nearly as far.
Simply put, if you want an eBike that accelerates fast, climbs well, and can travel long distances on a single charge, then you should purchase one with a battery that has high voltage and high amp-hours. A battery with high voltage and low amp-hours will shorten the distance you can travel on a single charge.
It's important to also consider the issue of range with regard to the type of motor you are buying. For example, there is a good argument that mid-drive motors get a better range than hub drive motors because they work synergistically with the gears.
NOTE: When you are looking at adverts for electric bikes, you may find some advertisements where the battery capacity is simply stated in amp-hours. This is an insufficient way to advertise range, as it does not include the voltage and does not accurately reflect the true energy capacity of the battery. If a bike is advertised with a 36V battery and a capacity of 9 amp-hours, then the true capacity of the battery is 324 watt-hours (9x36=324).