How fast does a 36 volt ride on go? What is the 36 volt ride on top speed, and what is the average speed of a 36v toy car? For many 36V ride-on toys, including kids 36v power wheel speed models and even how fast do 36 volt ATVs go, the typical top speed can be between 8 to 15 miles per hour (mph). Some special models, built for speed, might reach up to 20 mph, making them the maximum speed electric ride on options in this voltage class. Whether you can make your 36V ride-on go faster depends on several factors, including its design, motor, and safety limits. This guide will tell you all about the speed of these fun toys.
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Deciphering Ride On Battery Voltage Speed
A ride-on toy’s speed starts with its power source. This is the battery. The battery’s voltage shows how much electrical push it can give. Higher voltage usually means more power. More power can lead to faster speeds, but it also depends on other parts of the toy.
Think of it like water in a hose. Voltage is how much pressure is in the hose. More pressure can push more water out, making it go faster.
A 36-volt battery is a strong power source for a ride-on toy. It gives more power than common 12V or 24V systems. This extra power helps the toy move quicker, especially on different types of ground.
What 36 Volts Means for Your Ride-On
Thirty-six volts (36V) is a good amount of power for a toy car. It is a step up from smaller 12V and 24V toy cars. This higher voltage lets the toy use bigger motors. These motors can spin faster and have more strength. This means the toy can carry more weight or climb small hills better.
The higher voltage also helps the toy keep its speed. It does not slow down as much when going uphill or over rough ground. This makes for a more fun and steady ride. For many, this makes a 36V toy car feel more like a real small vehicle.
The Typical 36V Speed Range
When we talk about the speed of a 36V ride-on, we look at a range. Not all 36V toys go the exact same speed. The speed changes based on many things. But, generally, a 36 volt ride on top speed is much quicker than toys with lower voltages.
- Average Speed: Most 36V ride-on toys cruise at an average speed of 8 to 12 mph. This is a good speed for older kids to have fun safely. It is fast enough to feel exciting but not too fast to be out of control.
- Kids 36v Power Wheel Speed: For power wheels and similar models, the speed often stays in the 8-10 mph range. These are usually for younger riders and have speed limits built in for safety.
- How Fast Do 36 Volt ATVs Go: 36V ATVs or dirt bikes can be faster. They often reach 10 to 15 mph. Some specialized off-road models might even hit 18-20 mph. These toys are made for older kids who can handle more speed.
- Maximum Speed Electric Ride On: The maximum speed for a 36V electric ride-on usually tops out around 15-20 mph. Reaching this speed often means the toy has powerful motors, good gearing, and is ridden on flat, smooth ground.
This table shows some common speeds for 36V ride-ons:
| Type of 36V Ride-On Toy | Typical Speed Range (MPH) | Notes |
|---|---|---|
| Cars/Trucks (Power Wheel) | 8 – 10 mph | Often has speed limiters for safety |
| ATVs/Dirt Bikes | 10 – 15 mph | Made for older kids, off-road use |
| Go-Karts | 12 – 20 mph | Can be faster due to lighter build |
| Specialized Performance | 15 – 20+ mph | Built for speed, often for experienced riders |
This range shows that a 36V ride-on can be fast. It is important to know the exact speed of the toy you are looking at. Always check the product details or manual.
Elements Impacting Ride On Speed
The speed of an electric ride on car mph is not just about the voltage. Many things work together to decide how fast a toy car can go. These are called factors affecting ride on speed. Knowing these things helps you understand why some 36V toys are faster than others.
Motor Power and Performance
The motor is like the heart of the ride-on toy. It turns the battery’s power into movement. A bigger or stronger motor can make the toy go faster.
- Wattage (W): Motors are rated in watts. More watts mean more power. A 36V toy with a 500-watt motor will be much faster than one with a 200-watt motor. The 36v motor performance directly relates to its power output.
- Motor Type: Some motors are more efficient. They use the battery power better to create speed. Brushless motors, for example, are often more powerful and last longer than brushed motors. They also help a lot with the electric ride on car mph.
- Number of Motors: Some ride-ons have one motor. Others have two or even four. More motors can mean more power and better traction. This helps the toy keep its speed, especially on uneven ground.
Gearing and Transmission
The gearing is like the gears on a bicycle. It changes how the motor’s power gets to the wheels.
- High Gears: A higher gear ratio means the wheels turn faster for every spin of the motor. This leads to higher top speeds.
- Low Gears: A lower gear ratio gives more power for climbing hills or starting from a stop. It usually means a lower top speed.
- Gearbox Design: The way the gears are put together also matters. Some gearboxes are built for speed, while others are built for strength.
Weight of the Rider and Toy
Weight is a big factor. The more weight a toy has to carry, the slower it will go.
- Rider Weight: Every ride-on toy has a maximum weight limit. If a child is close to or over this limit, the toy will slow down. It might also strain the motor and battery.
- Toy Weight: A heavier toy car will be slower than a lighter one, even with the same motor and battery. This is why go-karts, which are often light, can be very fast.
Type of Terrain
Where the toy is driven changes its speed a lot.
- Flat, Smooth Surfaces: The fastest speeds happen on flat, smooth ground. Think of a paved driveway or sidewalk. There is little resistance here.
- Grass and Dirt: Driving on grass, dirt, or gravel makes the toy work harder. The wheels fight against the ground more. This causes the toy to slow down.
- Hills: Going uphill needs a lot more power. The toy will slow down, and the motor will work harder. Going downhill, of course, can make the toy faster, but riders must be careful.
Battery Health and Charge
The battery is key to the ride on battery voltage speed.
- Full Charge: A fully charged battery gives the most power. This means the toy will go its fastest.
- Low Charge: As the battery runs low, its power output drops. The toy will start to slow down.
- Battery Age: Older batteries may not hold a charge as well. They might not give as much power, making the toy slower over time.
- Battery Type: Lithium-ion batteries often provide more steady power than lead-acid batteries. They also usually weigh less.
Tire Type and Pressure
The tires are the toy’s contact with the ground. They matter for speed.
- Plastic Tires: Many toy cars have plastic tires. These can slip on some surfaces. They also have more friction on rough ground, slowing the toy down.
- Rubber Tires: Some higher-end ride-ons have real rubber tires. These grip the ground better. They also have less rolling resistance, which can make the toy faster and give a smoother ride.
- Tire Pressure (for pneumatic tires): For toys with inflatable rubber tires, having the right air pressure is important. Too little air can make the toy slow. Too much air can make it bouncy and reduce grip.
Electronic Speed Limiters and Governors
Many ride-on toys have safety features built in. These limit the kids 36v power wheel speed.
- Speed Settings: Some toys have multiple speed settings (e.g., slow and fast mode). This lets parents control how fast the child can go.
- Governors: Electronic governors can stop the toy from going over a certain speed. This is for safety. These can sometimes be changed, but it is not recommended without expert help. Doing so can void a warranty or make the toy unsafe.
Speed Comparison: 24V vs 36V
Many parents ask about the speed comparison 24v vs 36v. The jump from 24V to 36V is a big one. It means a noticeable increase in power and speed.
12V Ride-Ons: The Starting Point
Most children start with 12V ride-ons. These are often for younger kids (2-5 years old).
- Typical Speed: 12V toys usually go 2.5 to 5 mph. This is a walking pace. It is safe for very young children.
- Power: They have enough power for flat ground. They can struggle on grass or small hills.
24V Ride-Ons: A Step Up
24V ride-ons are for slightly older children (4-7 years old). They offer more power.
- Typical Speed: 24V toys often reach 5 to 7 mph. Some faster models might hit 8 mph. This is a light jogging pace.
- Power: They handle grass and small inclines better than 12V models. They feel more robust.
36V Ride-Ons: The Powerhouse
36V ride-ons are a different class. They are usually for older children (6-12+ years old).
- Typical Speed: As discussed, 36V toys generally go from 8 to 15 mph. Some can go up to 20 mph. This is a brisk running or cycling pace.
- Power: They have much more power. They can handle rougher terrain, steeper hills, and carry more weight. The acceleration is also much quicker.
Here is a simple speed comparison:
| Voltage | Typical Speed Range (MPH) | Recommended Age (Approx.) | Key Features |
|---|---|---|---|
| 12V | 2.5 – 5 mph | 2 – 5 years | Entry-level, gentle speed, good for flat ground |
| 24V | 5 – 8 mph | 4 – 7 years | Moderate speed, handles light terrain better |
| 36V | 8 – 20 mph | 6 – 12+ years | High power, faster speed, good for varied terrain |
This table clearly shows that a 36V ride-on gives a much more exciting ride. The speed comparison 24v vs 36v shows the 36V toys are almost twice as fast, sometimes more. This makes them good for older kids who want more thrill.
Evaluating 36v Motor Performance
The 36v motor performance is key to a ride-on’s speed and strength. These motors are designed to use the higher voltage to give more power.
- Torque: This is the twisting power of the motor. High torque means the toy can start quickly. It also helps it climb hills or pull more weight. 36V motors usually have good torque.
- RPM (Revolutions Per Minute): This is how fast the motor spins. Higher RPMs can mean higher top speeds, especially when paired with the right gears.
- Efficiency: A good 36V motor uses power wisely. It does not waste a lot of energy as heat. This means more power goes to the wheels, making the toy faster and the battery last longer.
- Durability: Because 36V motors work harder, they need to be well-made. Good quality motors will last longer and keep their performance over time. Look for reputable brands or reviews about motor reliability.
Optimizing Your Ride-On’s Speed
While the factory setting usually defines the maximum speed electric ride on, there are ways to ensure your 36V toy runs its best.
Keeping the Battery Healthy
The ride on battery voltage speed relies heavily on a good battery.
- Charge Fully: Always charge the battery fully before use.
- Do Not Overcharge: Do not leave it charging for days on end. Follow the manual’s charge times.
- Store Properly: If not using for a long time, charge the battery every few months. Store it in a cool, dry place.
- Replace Old Batteries: Batteries wear out over time. An old battery will not give full power, making the toy slow. Replacing it can bring back lost speed.
Regular Maintenance Checks
A well-kept toy performs better.
- Clean Moving Parts: Keep dirt and hair out of the wheels and gearboxes. This reduces friction.
- Check Tires: Make sure pneumatic tires have the right air pressure. For plastic tires, check for damage.
- Tighten Loose Screws: Vibration can loosen parts. Tighten screws to keep the toy running smoothly.
- Lubricate: Use a safe lubricant on moving parts if needed. This reduces wear and drag.
Rider Weight and Terrain Choices
Choosing the right conditions for riding helps keep the speed up.
- Stay Within Weight Limits: Make sure the child riding is within the toy’s weight limit.
- Pick Smooth Paths: For fastest speeds, choose flat, paved areas. Avoid thick grass or rough trails if speed is the main goal.
Safety First with High-Speed Ride-Ons
A 36V ride-on toy is fast. This means safety is even more important.
- Helmet Use: Always make sure the child wears a helmet. This is a must for head protection.
- Protective Gear: Knee pads and elbow pads are also a good idea, especially for ATVs or faster models.
- Supervision: Always watch children when they are riding. This is true for all ride-on toys, but even more so for faster ones.
- Safe Riding Area: Make sure the riding area is clear of people, pets, and obstacles. Do not let children ride near roads or in traffic.
- Teach Rules: Teach children how to steer, stop, and avoid things. Teach them about safe speeds.
- Age Appropriateness: Make sure the toy is right for the child’s age and skill. A younger child might not be ready for a fast 36V toy.
Is a 36V Ride-On Right for Your Child?
Deciding on a 36V ride-on means thinking about a few things.
- Child’s Age and Maturity: 36V toys are for older, more mature children, usually age 6 or 8 and up. They need good balance and judgment.
- Riding Experience: Has your child ridden slower ride-ons before? If they are new to ride-ons, a 36V might be too much.
- Where They Will Ride: Do you have a big, safe area for them to ride? A small backyard might not be enough for a fast toy.
- Parental Comfort Level: Are you comfortable with your child riding a toy that can go 15 mph or more?
For many, a 36V ride-on is an exciting next step. It offers more thrills and better outdoor performance. But it is important to be ready for the extra speed and power.
Conclusion
The question “How fast does a 36v ride on go?” has a clear answer: these toys are generally fast, often reaching 8 to 15 mph, with some hitting 20 mph or more. This makes them significantly quicker than 12V or 24V models. The 36 volt ride on top speed depends on the motor, gearing, weight, terrain, and battery health. The 36v motor performance and the ride on battery voltage speed work together to deliver this power.
Knowing the factors affecting ride on speed helps you pick the right toy. It also helps you keep it running its best. Remember to always put safety first. A 36V ride-on can be a great way for older kids to have fun outdoors. It offers a powerful and exciting ride that is closer to a real vehicle experience.
Frequently Asked Questions (FAQ)
Q: Can I make my 36V ride-on go faster?
A: Sometimes, but it is often not recommended. Some toys have speed limiter wires that can be cut, but this can void the warranty and make the toy unsafe. Adding more powerful motors or higher voltage batteries can also be done by experts, but it is risky and not meant for typical use. It is best to use the toy as designed.
Q: How long does a 36V battery last on a single charge?
A: The runtime varies greatly. It depends on the battery’s ampere-hour (Ah) rating, the weight of the rider, the terrain, and how fast the toy is driven. On average, a 36V ride-on might run for 45 minutes to 2 hours. Heavier use on rough terrain will drain it faster.
Q: Are 36V ride-ons safe for young children?
A: Generally, no. Most 36V ride-ons are designed for older children, typically aged 6, 8, or older, depending on the specific model and its top speed. They require more coordination and judgment than younger children usually have. Always check the manufacturer’s age and weight recommendations.
Q: What is the difference between a 36V Power Wheels and a 36V ATV?
A: A 36V Power Wheels usually refers to a car or truck style ride-on, often with a plastic body and sometimes a lower maximum speed for safety. A 36V ATV (All-Terrain Vehicle) is designed for off-road use, often has larger tires, better suspension, and can generally go faster on varied terrain. The design and features often lead to a higher maximum speed electric ride on for ATVs.
Q: Do 36V ride-ons come with a remote control for parents?
A: Some 36V ride-ons, especially the car/truck models, might come with a parental remote control. This lets parents steer or stop the toy. However, this feature is more common on slower 12V or 24V models designed for younger children. For faster 36V models, remote control is less common as they are for older, independent riders.