E-Bike Buying Guide for Seniors: How to Choose the Right Electric Bike as a Rider Over 60

Choosing an e-bike is one of the more meaningful purchases you can make as an active senior — and it's also one where the wrong decision can leave an expensive machine collecting dust in your garage. The seat feels too high. Getting on requires an awkward leg lift that strains a replaced hip. The motor kicks in with a jolt that catches you off guard. None of these are dealbreakers on their own, but combined, they're enough to make someone abandon the whole idea of electric cycling.

The good news: every one of those problems is entirely avoidable — if you know what to look for before you buy.

This guide walks you through the key decisions involved in choosing an e-bike as a senior rider, drawn from hundreds of real demo rides with over-60 cyclists. It's organized deliberately: we start with the physical fit of the bike itself, then move into the electronics — motors, batteries, sensors, and throttles. That order matters. The best motor in the world won't help you if you can't comfortably mount and dismount the bike. Getting the fit right comes first.

Why the Buying Process Feels Confusing (And How to Simplify It)

Walk into any e-bike retailer or browse online for more than ten minutes and you'll encounter an overwhelming array of specifications, features, and marketing language. Hub drive versus mid-drive. Cadence sensors versus torque sensors. 500 watts versus 750 watts. Step-through versus step-over. Fat tires versus standard tires. It's a lot to process, especially when you're not entirely sure which of those variables actually matters for your situation.

The key to cutting through that noise is understanding that not all specifications are equally important for senior riders. Some specs — motor wattage, for instance — matter only after you've sorted out the physical fit of the bike. Others, like throttle type, are genuinely personal preferences with no universally right answer.

This guide is designed to help you prioritize. We'll cover the things that matter most for riders over 60, explain why they matter, and give you a clear framework for making a decision that fits your body, your lifestyle, and your budget.

Let's start where every good bike-fitting conversation starts: with the bike itself.

Part One: Getting the Fit Right — Frame, Geometry, and Sizing

The Most Important Feature for Senior Riders: Step-Through Height

If you talk to enough senior riders and pay close attention to what sends them back to the drawing board — or worse, back to the store with a return — a single feature comes up again and again: difficulty getting on and off the bike. Not the motor. Not the battery life. Not the top speed. The simple, practical challenge of mounting and dismounting without strain, awkwardness, or risk of falling.

This is why step-through frame design is the single most important feature to evaluate as a senior buyer.

On a traditional bicycle, a horizontal top tube runs from the front of the frame to the rear, creating a bar that you have to lift your leg over to mount the bike. For younger, flexible riders, this is a non-issue. For anyone managing reduced hip mobility, a history of knee replacement, arthritis, or the natural stiffening that comes with age, it can be a genuine barrier — and a safety concern.

Step-through frames address this by dramatically lowering or eliminating that bar entirely. Instead of swinging your leg up and over, you step through a low opening in the frame. The result is a mount that requires minimal leg lift, puts far less strain on the hips and knees, and feels confident and controlled.

But here's something the marketing materials often don't tell you: "step-through" is not a standardized measurement. The term is used loosely across the industry, and step-through heights vary enormously from one bike to the next. One manufacturer's "step-through" might mean a 19-inch bar height. Another's might mean 8.5 inches. Both are technically step-through frames, but the experience of getting on each one is completely different.

What this means for you as a buyer: when evaluating any e-bike marketed as step-through, always ask for the specific step-through height in inches — don't just accept the label. Then compare that number to your own range of motion. If you can comfortably lift your foot to 10 inches while stepping to the side, a bike with a 10.5-inch step-through will work for you. If your mobility is more limited, you'll want something closer to 8 or 9 inches.

As a practical reference, here are the step-through heights on some well-regarded senior e-bikes:

• 20-inch wheel step-through model: 8.5 inches
• 26-inch wheel step-through model: 10.5 inches
• Forward-pedaling comfort model (Every Journey style): comparable to the above
• Semi-recumbent/relaxed body model: approximately 17 inches, offset by a very wide open frame that makes mounting easy despite the higher measurement

That last point is worth noting: step-through height isn't the only factor in ease of mounting. Frame width and openness matter too. A bike with a slightly higher step-through but a very wide, unobstructed opening can actually be easier to get onto than one with a lower measurement but a narrow frame gap.

The bottom line: be specific, be honest about your body's capabilities, and test before you commit wherever possible.

Seat Height: The Other Half of the Mounting Equation

Step-through height gets you into the bike. Seat height determines what happens once you're on it — and particularly what happens when you come to a stop.

For most senior riders, the ideal is a seat low enough that one or both feet can reach the ground with confidence when stopped, while still being high enough to allow a reasonably full leg extension while pedaling. That second part is important for joint health: pedaling with a seat that's too low puts excessive stress on the knees over time, which is the opposite of what most seniors are trying to achieve.

Seat height is typically expressed as the lowest position the seat can be set to. Different frame designs accommodate different minimum heights, and the right number depends on your inseam measurement and personal comfort:

• 20-inch step-through model: seat adjusts down to 28.5 inches
• 26-inch step-through model: seat adjusts down to 31 inches
• Forward-pedaling design (EvryJourney): down to 29 inches
• Semi-recumbent/relaxed body model: down to 27.5 inches

Notice that the forward-pedaling and semi-recumbent designs achieve lower seat heights than you might expect given their wheel sizes. This is intentional, and it connects to one of the most clever engineering features in modern senior-focused e-bike design — which we'll cover in detail shortly.

One important practical note: a bike with a low step-through height but a high minimum seat height can still be challenging for some riders. You step through the frame easily, then find yourself perched too high to get your feet flat on the ground. Both measurements matter, and they should be evaluated together.

Riding Position and Comfort: Why Geometry Matters More Than Cushioning

Many riders, when thinking about e-bike comfort, focus immediately on the saddle — the width, the padding, the shape. And while saddle choice does matter, the bigger factor in long-ride comfort is actually the geometry of the frame itself: how the bike positions your body while you're riding.

For senior riders, the universal preference that emerges from real-world experience is an upright riding position. Back straight. Arms relaxed. Shoulders back and down, not hunched forward. Hands resting comfortably on swept-back handlebars rather than reaching forward onto straight or drop bars.

This isn't just about aesthetics or feeling casual. An upright position distributes your weight differently than a forward lean. It puts less strain on your lower back, neck, and wrists. It reduces the cumulative fatigue that builds over a long ride. And it gives you a better vantage point for seeing traffic, pedestrians, and trail hazards — which is a genuine safety benefit.

The opposite of this — a forward-leaning position where your torso is angled toward the front wheel — is common on performance road bikes and many hybrid models. It's efficient for racing and fast riding, but it's not what most over-60 riders want or need. After an hour on a bike that forces your back into a hunched position, the discomfort alone is enough to cut rides short and reduce the motivation to go out again.

All well-designed senior e-bikes place the rider in an upright, relaxed posture with swept-back handlebars. If you're evaluating a bike and the handlebar position forces you to reach significantly forward or tuck your elbows in close, that's a flag — particularly for longer rides.

The Forward-Pedaling Design: Solving a Problem Most Riders Don't Know Exists

Here's a challenge that doesn't get enough attention in e-bike buying guides: on a conventional bicycle, seat height and leg extension are directly linked. If you raise the seat for better leg extension while pedaling, your feet no longer reach the ground comfortably when stopped. If you lower the seat so your feet can touch the ground, you sacrifice leg extension — which is inefficient and harder on the knees over time.

For many riders, this is a trade-off they simply accept. They set the seat a little low, deal with slightly bent knees at the bottom of the pedal stroke, and move on.

But forward-pedaling e-bike designs — where the pedals are positioned several inches in front of their standard location — dissolve this trade-off entirely.

Here's how it works: by moving the pedals forward (typically 6 to 6.5 inches from the standard position), the geometry of the leg's range of motion changes. You can now achieve a full, healthy leg extension at the bottom of the pedal stroke even with the seat set lower than you could on a conventional frame. The result: seat low, feet flat on the ground when stopped, proper leg extension while riding. All three simultaneously.

For senior riders — especially those managing knee conditions, recovering from surgery, or simply wanting to ride comfortably for long periods — this is genuinely significant. It removes a compromise that most riders don't even realize they've been making.

The forward-pedaling offset varies across designs. On more modest step-through frames, the offset might be just 2 to 3 inches — helpful, but not transformative. On dedicated forward-pedaling models, it's typically around 6.5 inches, which is enough to make a clear functional difference.

Semi-Recumbent Geometry: For Riders Who Want Maximum Joint Comfort

If forward-pedaling geometry represents one step along a spectrum away from conventional bicycle design, semi-recumbent geometry represents the far end of that spectrum — and for certain riders, it's the ideal solution.

In a semi-recumbent position, the pedals are moved far out in front of the body, and the seat is reclined slightly backward. The overall effect is similar to the recumbent stationary bikes found at most gyms: you're sitting in a low, stable, chair-like position, pedaling out in front of your body rather than below it.

The biomechanical benefits of this position are well-documented. With the legs extending forward rather than downward, hip flexion is reduced — which is a meaningful benefit for anyone with hip replacement, hip impingement, or chronic hip pain. Knee tracking improves, and the overall load on the joint is lower. The lower back stays in a more neutral position. For riders whose joint health has been a limiting factor in conventional cycling, semi-recumbent geometry can be the difference between being able to ride comfortably and not being able to ride at all.

The practical benefits are also notable. Because the seat can sit so much lower to the ground in this configuration — often as low as 27 inches — foot placement when stopped is easy and secure. The wide, open frame typically used in this style of bike makes mounting straightforward despite a somewhat higher step-over point.

The one adjustment most riders need to make is simply getting used to the sensation of pedaling forward rather than down. For anyone who uses recumbent gym bikes regularly, the transition is immediately intuitive. For others, it takes a ride or two to feel natural — but the comfort payoff is usually worth it.

Part Two: Understanding the Electronics — Motors, Batteries, Sensors, and Throttles

Once you've identified a bike (or a shortlist of bikes) that fits your body and riding position, you can turn your attention to the electronic components. These are the features that make an e-bike an e-bike — and they have a significant effect on the riding experience, the range, and the cost.

Motor Wattage: How Much Power Do You Actually Need?

Motor wattage is one of the most frequently discussed e-bike specifications, and also one of the most misunderstood. Many buyers assume that more watts automatically means a better experience. In practice, the right wattage depends on your specific situation — and for many senior riders, the lower option is actually the better fit.

The two most common motor sizes for recreational e-bikes are 500 watts and 750 watts. Here's a practical framework for deciding between them:

A 500-watt motor is sufficient if:

• You weigh under 200 pounds
• Your typical riding terrain is primarily flat or gently rolling
• You plan to use a moderate level of pedal assist rather than relying heavily on the motor

Consider a 750-watt motor if:

• You weigh over 200 pounds (heavier riders place more demand on the motor, particularly on hills)
• You regularly ride in hilly terrain and want the motor to do most of the work on climbs
• You simply prefer the feeling of having more power available, even if you don't always use it

Both motor sizes are governed by the same legal top speed on public roads — 20 miles per hour for Class 2 e-bikes. The difference isn't top speed; it's how effortlessly and quickly the bike achieves and maintains that speed, particularly when going uphill or carrying extra weight.

One nuance worth mentioning: some senior riders actually find a 750-watt motor too powerful — specifically, too aggressive in how quickly it responds. If you're not accustomed to that kind of immediate acceleration, it can feel startling rather than helpful. This is more of a concern with certain motor configurations than others, and it's one more reason why test-riding before buying is so valuable.

For the majority of senior riders on flat-to-moderate terrain, a 500-watt motor hits the sweet spot: ample power for comfortable daily riding, predictable and manageable response, and a slightly lower price point than 750-watt options.

Battery Size and Range: Planning for Your Actual Rides

Battery capacity on e-bikes is measured in amp-hours (Ah), and it directly determines how far you can ride on a single charge. Most quality senior e-bikes come equipped with batteries in the 10 to 14 Ah range, which — paired with a 500-watt motor — typically delivers a real-world range of 30 to 50 miles per charge depending on conditions.

A few factors that affect actual range:

• Assist level: Using higher assist levels depletes the battery faster. Riders who cruise on level 1 or 2 will get significantly more range than those who ride on level 4 or 5.
• Terrain: Hilly terrain demands more from the motor and drains the battery more quickly than flat ground.
• Rider weight: Heavier riders require more power to accelerate and maintain speed, reducing range.
• Wind: A steady headwind can reduce range noticeably, particularly at higher speeds.
• Temperature: Cold weather reduces battery efficiency — a meaningful consideration for riders in northern climates.

For most senior riders whose typical ride is 10 to 20 miles, a 10.4 Ah battery with a 500-watt motor provides comfortable headroom. You're unlikely to run the battery down in a typical day ride, and the knowledge that reserve power is available removes anxiety from longer excursions.

If you're planning consistently longer rides — 30 miles or more in a single outing — it's worth prioritizing a larger battery or confirming that the battery on your chosen bike is removable and rechargeable away from the bike (which most are).

Cadence Sensors vs. Torque Sensors: What's the Real Difference?

This is one of the more technical distinctions in the e-bike world, and it's one that genuinely matters for how the bike feels to ride. Understanding the difference helps you make a more informed choice — or at least ask the right questions.

Cadence sensors detect whether you are pedaling. When the sensor registers that the cranks are turning, it signals the motor to engage at the assist level you've selected. The motor output stays relatively constant as long as you keep pedaling, regardless of how hard or lightly you push.

Torque sensors measure how hard you are actually pushing on the pedals. When you push harder, the motor provides more assistance. When you ease off, the motor backs down proportionally. The result is an assist that mirrors your own effort — push harder going uphill, get more help; coast on a flat, get minimal assist.

Both systems have genuine advantages, and experienced riders are genuinely split on which they prefer:

The case for cadence sensors: On hills, the constant motor engagement is a real benefit. The moment you start pedaling, the motor kicks in at full assist level — there's no delay, no gradual ramp-up. This is particularly useful for getting started on an incline, where hesitation can cause balance problems. Cadence sensors are also less expensive, which is reflected in the overall bike price.

The case for torque sensors: The riding experience is smoother and more intuitive. The motor doesn't kick in abruptly; it eases in proportionally to your effort, which feels more natural — particularly for riders who value the sensation of genuine cycling rather than motor-assisted cruising. Many senior riders find the torque sensor's gradual engagement less startling, especially when starting from a stop in a crowded area.

Neither is objectively superior. Both work well for senior riders. If you prefer the feeling of seamless, effort-matched assistance, lean toward a torque sensor. If you prioritize consistent power output — especially on hills — a cadence sensor delivers that more reliably. When in doubt, test both and let your own preference guide the decision.

Throttles: What They Are and Why Senior Riders Love Them

A throttle on an e-bike does exactly what the word implies: it lets you engage the motor without pedaling. Twist it or press it, and the bike moves forward under motor power alone. Many e-bikes — particularly Class 2 models — include a throttle as standard equipment.

For senior riders specifically, the throttle is far more than a convenience feature. It serves several genuinely useful functions:

Starting from a stop: Getting a heavy e-bike rolling from a standstill requires a brief moment of effort and balance management. With a throttle, you can give the bike a gentle nudge of motor power to get it moving before you engage the pedals. This makes starting — particularly on hills, in tight spaces, or at busy intersections — noticeably easier and more controlled.

Rest during a ride: On a long ride, there are moments when your legs simply want a break — descending a hill, cruising through a park, or recovering after a steep climb. The throttle lets you maintain forward motion without pedaling during those moments, making the overall ride less tiring and more sustainable.

Low-speed maneuvering: Walking a bike through a parking area, around a tight corner, or through a gate is easier with a throttle than without one. A brief touch of throttle power keeps the bike moving steadily while you focus on steering and balance.

There are two common throttle types: twist throttles (similar to a motorcycle, where you rotate the grip to engage) and thumb throttles (a lever that you press with your thumb). Both accomplish the same thing. The preference between them is almost entirely personal — some riders find the twist more intuitive, others prefer the precision of a thumb lever. If you have the opportunity to try both, do so.

Pedal Assist Levels: Dialing In the Right Amount of Help

Almost all e-bikes come with multiple levels of pedal assist — typically five — that let you control how much the motor contributes while you pedal. Understanding how to use these levels effectively is one of the things that separates an enjoyable, fitness-oriented e-bike experience from one that feels like you're just being carried along passively.

Level 1 provides minimal assistance — a gentle push that takes the edge off effort without doing the work for you. On flat terrain, riding at level 1 is genuinely good exercise. Level 5 provides maximum assistance, making steep climbs feel manageable and allowing you to cover longer distances without tiring.

The right strategy for most senior riders is to treat the pedal assist levels the way a thoughtful gym-goer treats weight settings: start with less resistance than you think you need, and adjust upward only when necessary. This approach maximizes the fitness benefit of every ride while ensuring that help is available when the terrain or your energy level demands it.

Many active senior riders settle into a pattern of riding at level 1 or 2 on flat ground — getting genuine cardiovascular exercise — and bumping to level 3 or 4 for climbs. Over time, as fitness improves, some find themselves using lower levels more consistently. That progression is part of what makes e-biking a genuinely effective long-term exercise tool rather than just a comfortable way to get around.

Part Three: Practical Buying Advice

Prioritize Fit Over Features

This is perhaps the most important piece of advice in this entire guide, and it's worth stating plainly: do not let impressive electronics override poor physical fit.

It's easy to get drawn in by a bike with a powerful motor, a long-range battery, and an impressive spec sheet — only to discover after purchase that the step-through height is too awkward for your hip, or the seat doesn't go low enough, or the riding position strains your lower back on rides longer than 20 minutes.

Electronics can be upgraded. Frame geometry cannot. A step-through height is fixed once you own the bike. If the physical fit of a bike doesn't work for your body, nothing in the spec sheet will compensate for that.

The right order of evaluation is:

1. Step-through height — can you mount and dismount comfortably and safely?
2. Seat height range — can the seat go low enough for your feet to reach the ground?
3. Riding position — is your back upright, your arms relaxed, and your overall posture comfortable?
4. Pedaling geometry — does the pedal position allow full leg extension at the appropriate seat height?
5. Weight — is the bike light enough to handle in parking areas, transport situations, and storage?
6. Motor and battery — does the power and range suit your typical riding needs?
7. Sensor type and throttle — which configuration matches your riding style preference?

Following this sequence protects you from the most common senior e-bike buying mistake: choosing a powerful, full-featured bike that simply doesn't fit.

Understand Your Riding Goals Before You Shop

Before evaluating any specific bike, spend a few minutes thinking honestly about how and where you plan to ride. The answers will shape almost every decision in the buying process.

How far do you plan to ride? If your typical outing is 5 to 10 miles around a neighborhood or park, almost any quality e-bike will meet your needs. If you're envisioning 25 to 30-mile tours, battery capacity and motor efficiency become more important.

What is your terrain like? Flat coastal paths and gentle suburban roads are very different from hilly neighborhoods or mountain trails. Hilly terrain calls for more motor power and potentially a larger battery.

What is your primary goal? Exercise and fitness? Leisure and exploration? Practical transportation for errands? Different goals suggest different priorities. Riders focused on fitness want a bike that works well at low assist levels. Those using the bike primarily for transportation may prioritize range and cargo capacity.

Do you have any specific physical considerations? Hip surgery, knee replacements, arthritis, balance issues, and lower back conditions all influence which features matter most. Being specific about these factors when talking to a dealer or test-riding allows you to evaluate bikes against your actual needs rather than general recommendations.

What is your budget? E-bikes for senior riders range broadly in price. Quality step-through models with a 500-watt motor and appropriate geometry typically start around $1,200 to $1,500 and go up from there. Torque sensors and larger batteries push costs higher. Setting a realistic budget before you shop prevents the frustration of falling in love with a bike that's out of range.

Always Test Ride When Possible

Reading specifications and watching video reviews is genuinely useful preparation — but it cannot replace the experience of actually sitting on a bike and riding it.

The variables that matter most for senior riders — how the mounting feels, whether the seat height is right for your body, how the riding position holds up after 20 minutes, how the motor engages on a slight incline — are things that cannot be evaluated from a product page. They can only be felt.

If a dealer or brand offers test rides, take full advantage. Arrive with your prioritized list of features and concerns, and evaluate each one deliberately. Try mounting and dismounting multiple times — not just once. Ride for longer than feels necessary. Get out of the parking lot and onto actual road surface. If there's a hill nearby, ride it.

If an in-person test ride isn't available before purchase, look for brands that offer a meaningful return window — a 30-day trial policy, for instance, that allows you to return the bike with no financial penalty if it doesn't suit you. This kind of policy is a strong indicator that the brand stands behind their product and understands that fit is personal.

Don't Overlook Weight

E-bike weight often gets less attention than it deserves in buying guides. When you're in the middle of a comfortable ride, 60 pounds feels weightless. When you're lifting the bike into the back of an SUV, maneuvering it around a tight garage, or picking it up after an awkward dismount, 60 pounds is very much present.

For senior riders who plan to transport their bike frequently — on road trips, to trail heads, or to visit family — the weight difference between a 55-pound bike and a 65-pound bike is real and meaningful. A bike that's genuinely cumbersome to handle off the road will get taken out less often.

Most quality senior e-bikes fall in the 55 to 65-pound range with the battery installed. The battery alone typically accounts for 7 to 10 pounds — and on most models, it's removable, which can be helpful when loading the bike into a vehicle or carrying it up steps.

If portability is a priority, look for foldable options (usually built around 20-inch wheels) that reduce both weight and dimensional footprint for transport. These are particularly practical for RV travelers, apartment dwellers with limited storage, or anyone who regularly loads their bike into a car.

Consider the Total Ownership Experience

Beyond the bike itself, there are a few practical aspects of long-term ownership that are worth thinking through before you buy.

Warranty and service: A one-year warranty covering parts and labor is a reasonable baseline expectation from any reputable e-bike brand. Confirm what's covered before purchasing, and ask specifically about how repairs are handled — whether the brand has local service partners, whether you ship the bike for warranty service, or whether repairs can be done at home with parts supplied by the brand.

Battery replacement: E-bike batteries degrade over time, typically losing noticeable capacity after 500 to 800 charge cycles. That's several years of regular riding for most people, but it will eventually need replacement. Confirm that replacement batteries are available for your model and get a sense of the cost.

Community and support: Many e-bike brands have built active rider communities — online forums, social groups, or local riding clubs — where new riders can get advice, share experiences, and find riding companions. For senior riders, particularly those who are new to cycling or returning after a long break, this kind of community can meaningfully enrich the experience.

Pulling It All Together: A Summary Framework

Choosing the right e-bike as a senior rider comes down to a clear sequence of priorities. Here's a condensed framework to take with you when you shop:

Step 1 — Fit first. Before you look at a single specification, evaluate the physical fit. What is the step-through height, and can you comfortably lift your leg to that height? What is the minimum seat height, and does it allow your feet to reach the ground? Is the riding position upright and relaxed?

Step 2 — Match the design to your body. If you have hip or knee limitations, a forward-pedaling or semi-recumbent design may suit you better than a conventional frame. If you're shorter or need maximum ease of mounting, prioritize the lowest available step-through height.

Step 3 — Choose the right motor. Under 200 pounds and primarily flat terrain? A 500-watt motor will serve you well. Over 200 pounds or regularly riding hills? Consider a 750-watt option.

Step 4 — Pick your sensor type. Prefer consistent, reliable power — especially on hills? Cadence sensor. Prefer a smooth, effort-matched assist that feels like natural cycling? Torque sensor. When in doubt, test both.

Step 5 — Confirm the throttle works for you. Twist or thumb — try both if possible, and choose what feels natural in your hand. Either way, having a throttle is a genuinely useful feature for senior riders.

Step 6 — Match battery range to your riding plans. A 10 to 10.4 Ah battery with a 500-watt motor is more than sufficient for rides up to 30 miles with moderate assist. Plan longer rides consistently? Go bigger.

Step 7 — Test ride before you commit. No amount of research replaces time in the saddle. If a 30-day return policy is available, use it as your safety net.

Final Thoughts

The e-bike market has grown enormously in recent years, and with it, the range of options available to senior riders has never been better. There are bikes designed with deliberate attention to the specific needs of over-60 cyclists — not as an afterthought, but as the central design objective.

Getting this purchase right requires honest self-assessment before anything else. What does your body need? What are your limitations, and what are your goals? The best e-bike for an active senior is the one that makes you genuinely want to ride — that feels safe to mount and dismount, comfortable over an hour in the saddle, and capable enough to take you wherever you want to go.

Start with fit. Then sort out the electronics. Test ride whenever possible. And don't be rushed into a decision that doesn't feel right for your body.

The right bike, chosen carefully, can be one of the most rewarding investments you make in your health, your independence, and your enjoyment of the outdoors. It's worth taking the time to get it right.



A 30-day trial period is available on the models referenced in this guide, allowing you to return the bike at no cost if it isn't the right fit. All bikes come with a one-year warranty covering parts and labor. Test rides are available for riders who want to evaluate options in person before making a purchase.