The aforementioned vehicle represents an all-electric, performance-oriented sedan scheduled for release in the 2025 model year. It is positioned within a manufacturer’s lineup as a specific trim level characterized by a balance of power, range, and features, typically offering all-wheel drive and enhanced performance capabilities compared to base models. For example, it may feature a higher output electric motor configuration than the entry-level model.
The significance of this vehicle stems from its contribution to the electric vehicle market, offering a blend of luxury, performance, and sustainable transportation. Its benefits include reduced emissions, potentially lower running costs due to electric power, and access to advanced technology features. Tracing back, previous iterations of the model have established a reputation for combining sports car dynamics with the practicality of a four-door sedan, setting a benchmark in the electric vehicle segment.
Subsequent discussion will delve into specific performance metrics, technological advancements incorporated, available options and customization, and comparative analysis against competing vehicles within the luxury electric vehicle landscape. This will provide a more detailed understanding of the offering and its position in the automotive market.
1. All-Electric Powertrain
The all-electric powertrain is a fundamental element of the 2025 Porsche Taycan 4S, serving as the primary source of propulsion. The powertrain replaces the traditional internal combustion engine with electric motors and a high-voltage battery pack. This replacement directly results in zero tailpipe emissions during operation. The importance of this powertrain lies in its ability to deliver instant torque, enabling rapid acceleration and a distinctive driving experience. For example, the Taycan 4S utilizes dual electric motors, one at each axle, providing all-wheel drive capability and maximizing traction under various driving conditions.
The all-electric powertrain significantly impacts the vehicle’s performance characteristics. Unlike combustion engines, electric motors produce peak torque from a standstill. This facilitates immediate responsiveness, contributing to the vehicle’s advertised acceleration figures. Furthermore, the efficiency of the electric powertrain translates to reduced running costs compared to gasoline-powered vehicles. Real-world examples demonstrate that electricity costs are typically lower than fuel costs for comparable driving distances. The system integrates regenerative braking, recapturing kinetic energy during deceleration to recharge the battery and extend driving range.
In summary, the all-electric powertrain is integral to the identity and functionality of the 2025 Porsche Taycan 4S. It dictates the vehicle’s environmental footprint, performance capabilities, and overall driving experience. Understanding the intricacies of this powertrain is essential for appreciating the unique characteristics and advantages of this electric vehicle. The challenges associated with electric powertrains, such as charging infrastructure and range anxiety, are being actively addressed through advancements in battery technology and charging network expansion. This links to the broader theme of sustainable transportation and the ongoing shift towards electrification in the automotive industry.
2. All-Wheel Drive System
The all-wheel-drive (AWD) system is an integral component of the 2025 Porsche Taycan 4S, significantly influencing its performance characteristics, handling dynamics, and overall driving experience. Its presence underscores the vehicle’s commitment to providing superior traction and stability across a range of driving conditions.
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Dual Motor Configuration and Torque Distribution
The Taycan 4S employs a dual-motor setup, with one electric motor powering the front axle and another driving the rear axle. The AWD system intelligently distributes torque between these axles, optimizing grip based on real-time conditions. For example, if the system detects wheel slippage at the rear, it can instantly transfer torque to the front wheels to maintain traction. This proactive torque distribution enhances acceleration, stability in adverse weather, and overall handling precision.
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Electronic Control and Responsiveness
The AWD system is managed by sophisticated electronic control units that continuously monitor various sensors, including wheel speed, steering angle, and throttle position. This data enables the system to anticipate potential traction loss and react within milliseconds. As an example, during cornering, the system can adjust the torque bias to mitigate understeer or oversteer, contributing to a more balanced and confident driving experience. This is facilitated through systems like Porsche Traction Management (PTM).
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Impact on Performance Metrics
The presence of AWD directly impacts the vehicle’s performance figures. By providing enhanced traction, the system enables quicker acceleration times, particularly from a standstill. For instance, independent testing consistently demonstrates that AWD vehicles achieve faster 0-60 mph times compared to their rear-wheel-drive counterparts. The AWD system also enhances stability at higher speeds, contributing to improved driver confidence and control.
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Energy Efficiency Considerations
While AWD enhances performance and handling, it also introduces additional weight and mechanical complexity, which can potentially impact energy efficiency. The system is designed to optimize torque distribution for both performance and efficiency. In certain driving scenarios, such as highway cruising, the system may decouple one of the axles to reduce energy consumption and maximize driving range. This integration of performance and efficiency is a critical aspect of the system’s design.
In conclusion, the all-wheel-drive system in the 2025 Porsche Taycan 4S is not merely an add-on feature, but a carefully engineered system that significantly contributes to the vehicle’s dynamic capabilities and overall driving experience. Its integration with the electric powertrain and advanced control systems exemplifies the manufacturer’s commitment to delivering a high-performance electric vehicle that excels in both performance and efficiency. This contributes directly to its market positioning and appeal within the luxury electric vehicle segment.
3. Performance Specifications
Performance specifications are a critical aspect of the 2025 Porsche Taycan 4S, defining its dynamic capabilities and contributing significantly to its positioning within the electric vehicle market. These specifications detail quantifiable measures of the vehicle’s abilities, providing potential buyers with concrete data to assess its suitability.
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Acceleration Metrics
Acceleration metrics, such as 0-60 mph time and quarter-mile time, are fundamental performance indicators. The 2025 Porsche Taycan 4S is expected to exhibit rapid acceleration due to its electric powertrain. For example, prior model years of the Taycan 4S have demonstrated 0-60 mph times in the low 4-second range. These figures directly influence the perceived sportiness and responsiveness of the vehicle. The ability to achieve quick acceleration times is a key differentiator in the electric vehicle segment, where instant torque delivery is a significant advantage.
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Power and Torque Output
Power and torque figures quantify the output of the electric motors. Higher power output translates to increased top speed and sustained acceleration at higher velocities. Torque output, conversely, is directly related to the vehicle’s low-end responsiveness and pulling power. The 2025 Porsche Taycan 4S’s electric motors are expected to deliver substantial power and torque, contributing to its dynamic performance capabilities. For instance, specific horsepower and torque figures will be instrumental in comparing it to other performance-oriented electric vehicles.
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Top Speed
Top speed represents the maximum attainable velocity under ideal conditions. While less frequently utilized in daily driving, it serves as a benchmark for overall performance potential. The top speed of the 2025 Porsche Taycan 4S is electronically limited to a specific value, typically above 150 mph. This limitation is implemented to preserve battery life and ensure vehicle stability at high speeds. The advertised top speed reflects the engineering considerations balanced against performance targets.
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Handling and Braking Performance
Handling and braking performance encompasses metrics such as lateral acceleration (measured in g-force) and braking distance from a specified speed. These specifications reflect the vehicle’s cornering capabilities and stopping power. The 2025 Porsche Taycan 4S is expected to feature advanced suspension systems and high-performance brakes to deliver exceptional handling and braking performance. For example, the inclusion of features like adaptive dampers and torque vectoring contributes to improved cornering stability and reduced body roll.
Collectively, these performance specifications provide a comprehensive overview of the 2025 Porsche Taycan 4S’s dynamic abilities. They enable prospective buyers to objectively compare the vehicle against its competitors and assess its suitability for their specific driving needs. The interaction between acceleration, power, top speed, handling and braking ultimately defines the user experience and solidifies the vehicles status as a performance electric vehicle.
4. Battery Capacity
Battery capacity is a crucial attribute of the 2025 Porsche Taycan 4S, directly determining its driving range and influencing overall vehicle performance. It represents the amount of electrical energy the battery can store and subsequently deliver to power the electric motors.
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Usable vs. Total Capacity
Battery capacity is often specified in two values: total and usable. Total capacity represents the absolute maximum energy the battery can theoretically store. Usable capacity, however, is the amount accessible for driving, excluding reserves to protect battery health and longevity. The 2025 Porsche Taycan 4S specifications will detail both figures. The usable capacity is the more relevant metric for estimating real-world driving range.
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Impact on Driving Range
A larger battery capacity generally translates to a longer driving range. The Taycan 4S’s battery capacity is a primary factor in how far the vehicle can travel on a single charge. For example, a higher capacity battery allows for extended commutes, longer road trips, and reduced frequency of charging. The Environmental Protection Agency (EPA) range estimate will be directly linked to the battery’s usable capacity. This relationship is fundamental in marketing the vehicle and addressing customer concerns about range anxiety.
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Charging Time and Infrastructure
Battery capacity influences charging time. A larger capacity battery inherently requires more time to fully recharge. However, advancements in charging technology and infrastructure, such as 800V charging systems, can mitigate this effect. The 2025 Porsche Taycan 4S is expected to utilize rapid charging capabilities, allowing for significant range replenishment in relatively short periods. The availability and accessibility of charging stations are external factors that interact with the vehicle’s battery capacity to determine the practicality of electric vehicle ownership.
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Battery Technology and Energy Density
Battery technology plays a pivotal role in determining energy density, which refers to the amount of energy stored per unit of volume or weight. Advanced battery chemistries, such as improved lithium-ion compositions, can increase energy density, resulting in higher capacity batteries within the same physical dimensions. The specific battery technology utilized in the 2025 Porsche Taycan 4S influences its overall performance and efficiency. Higher energy density batteries contribute to increased range without significantly increasing vehicle weight.
In summary, battery capacity is a defining characteristic of the 2025 Porsche Taycan 4S, directly impacting its range, charging behavior, and overall practicality. The interplay between battery capacity, charging infrastructure, and battery technology determines the competitiveness of the vehicle in the evolving electric vehicle market. Further advancements in battery technology will continue to shape the future of electric vehicles and their performance capabilities.
5. Charging Capabilities
Charging capabilities are a defining characteristic of any electric vehicle, and are particularly salient for the 2025 Porsche Taycan 4S, directly impacting usability, convenience, and overall ownership experience. Efficient and versatile charging options are crucial for maximizing the appeal and practicality of this high-performance electric sedan.
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Charging Standards and Compatibility
The 2025 Taycan 4S’s charging capabilities are defined by its compatibility with established charging standards such as CCS (Combined Charging System) for DC fast charging and Level 2 charging. CCS compatibility allows the vehicle to utilize a wide network of public charging stations, providing flexibility for charging on the go. Level 2 charging enables overnight charging at home, providing a convenient way to replenish the battery. Incompatibility with common charging standards would severely limit the usability of the vehicle. Porsche also offers proprietary charging solutions, such as the Porsche Mobile Charger Connect, designed to optimize charging performance.
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Charging Speed and Voltage
The charging speed of the Taycan 4S is determined by its maximum charging voltage and amperage. The 2025 model retains an 800-volt architecture, enabling significantly faster charging times compared to vehicles with 400-volt systems. This high-voltage architecture allows the Taycan 4S to add a substantial amount of range in a relatively short period when connected to a compatible DC fast charger. For instance, it is expected to add approximately 60 miles of range in as little as five minutes under optimal conditions. This minimizes downtime during long journeys and increases the overall convenience of electric vehicle ownership.
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Home Charging Solutions
Home charging solutions are essential for daily usability. Porsche offers a range of home charging options, including wall-mounted chargers with varying power outputs. These home chargers provide a convenient and reliable way to charge the Taycan 4S overnight, ensuring a full battery each morning. Smart charging features, such as scheduled charging and energy consumption monitoring, may also be integrated into the home charging systems, optimizing energy usage and reducing electricity costs. Home charging is often the primary charging method for EV owners, making it a critical element of the ownership experience.
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Public Charging Network Access
Access to a comprehensive and reliable public charging network is crucial for long-distance travel and occasional charging needs. Porsche partners with various charging network providers to offer its customers access to a wide range of charging stations. These partnerships often include preferential charging rates or bundled charging packages, providing additional cost savings and convenience. The availability and reliability of public charging infrastructure are external factors that significantly impact the usability of the Taycan 4S and its suitability for long-distance travel.
In conclusion, the charging capabilities of the 2025 Porsche Taycan 4S are carefully engineered to provide a convenient, efficient, and versatile charging experience. Compatibility with established charging standards, high-speed charging architecture, comprehensive home charging solutions, and access to public charging networks collectively contribute to the practicality and appeal of the vehicle. These capabilities address a key concern for potential EV buyers, solidifying its position as a competitive offering in the high-performance electric vehicle segment. The enhancements made to the 2025 model directly address user feedback, improving the overall charging experience.
6. Interior Design
The interior design of the 2025 Porsche Taycan 4S directly influences the user experience, perceived value, and overall appeal of the vehicle. The selection of materials, ergonomic layout, and integration of technology contribute to the driver’s and passengers’ comfort, functionality, and sense of luxury. For example, the use of high-quality leather, sustainable materials, and precision stitching enhances the tactile experience. The dashboard design, placement of controls, and seat adjustability affect driver ergonomics and ease of use. Consequently, the interior design is a crucial component in shaping the perception of the vehicle as a premium offering.
The integration of technology within the interior is another critical factor. The design incorporates digital displays, infotainment systems, and connectivity features that must be seamlessly integrated without compromising the overall aesthetic. For instance, the placement of the central touchscreen, the design of the instrument cluster, and the availability of head-up display impact the driver’s ability to access information and control vehicle functions. The implementation of advanced driver-assistance systems (ADAS) within the interior design also affects the user interface and the driver’s awareness of the vehicle’s surroundings. The interior must balance technological innovation with intuitive operation and minimal distraction.
In conclusion, the interior design of the 2025 Porsche Taycan 4S is not merely an aesthetic consideration, but a functional element that shapes the driving experience and contributes significantly to the vehicle’s market positioning. The challenge lies in creating an interior that is both luxurious and technologically advanced, while also being practical and intuitive. The success of the interior design is measured by its ability to enhance the overall ownership experience and reinforce the brand’s commitment to performance, innovation, and quality. The design choices reflect a conscious effort to balance tradition and modernity within the electric vehicle segment.
7. Exterior Styling
The exterior styling of the 2025 Porsche Taycan 4S is intrinsically linked to its brand identity, aerodynamic efficiency, and market appeal. The design language communicates the vehicle’s performance capabilities and technological advancements, contributing directly to its perceived value. For example, the sloping roofline, or “flyline,” is not merely an aesthetic element but also optimizes airflow, reducing drag and improving energy efficiency. The vehicle’s wide stance and muscular fenders convey a sense of power and stability, aligning with the manufacturer’s established design DNA. The selection of materials and finishes, such as lightweight aluminum and carbon fiber accents, further enhance its premium character.
The interplay between form and function is a defining aspect of the exterior styling. The placement of air intakes, diffusers, and spoilers is carefully calculated to manage airflow and optimize downforce, thereby improving handling and stability at high speeds. The design of the headlights and taillights incorporates advanced lighting technology, enhancing visibility and contributing to the vehicle’s distinctive appearance. For instance, the four-point LED daytime running lights are a signature design element that clearly identifies the vehicle as a Porsche. The integration of charging ports and access panels is also seamlessly incorporated into the overall design, maintaining a clean and uncluttered aesthetic.
In conclusion, the exterior styling of the 2025 Porsche Taycan 4S is a critical element that reflects the vehicle’s performance credentials, technological sophistication, and brand heritage. The design choices are driven by a combination of aerodynamic requirements, aesthetic considerations, and brand identity. The vehicle’s exterior not only serves to attract potential buyers but also to communicate its core values and engineering principles. Understanding the significance of exterior styling provides valuable insight into the overall design philosophy and market positioning of the 2025 Porsche Taycan 4S. The continued evolution of design language will be a key factor in the vehicle’s ongoing success.
8. Technological Features
The technological features embedded within the 2025 Porsche Taycan 4S are integral to its functionality, performance, and overall user experience. These features extend beyond mere convenience, directly impacting safety, efficiency, and the driving dynamics of the vehicle. The inclusion of advanced driver-assistance systems (ADAS), for example, enhances safety by providing automated assistance in various driving scenarios, while sophisticated energy management systems optimize battery performance and range. This integration of technology is not a superficial addition; it fundamentally reshapes the vehicle’s capabilities and establishes its competitive advantage.
Consider the adaptive suspension system as a specific instance. This system utilizes sensors to monitor road conditions and driving dynamics in real time, adjusting the suspension parameters to optimize ride comfort and handling. This translates to a smoother ride on uneven surfaces and enhanced stability during aggressive cornering. Another example is the advanced infotainment system, which offers seamless integration with smartphones, navigation services, and vehicle data. The system is not merely a source of entertainment; it provides critical information about charging status, energy consumption, and available range, thereby addressing common concerns associated with electric vehicle ownership. The Head-Up Display is designed to minimize driver distraction by projecting key information onto the windshield, such as speed, navigation prompts, and ADAS alerts.
In conclusion, the technological features of the 2025 Porsche Taycan 4S are not simply ancillary components; they are essential elements that define the vehicle’s identity and contribute significantly to its performance and value proposition. The ongoing development and refinement of these features present both opportunities and challenges. Successfully integrating new technologies while maintaining user-friendliness and ensuring reliability is crucial for sustaining the vehicle’s competitiveness in the rapidly evolving electric vehicle market. The seamless fusion of these features links directly to the broader narrative of automotive innovation and the pursuit of enhanced driving experiences.
9. Model Year Updates
Model year updates are critical to understanding the 2025 Porsche Taycan 4S. These updates represent the manufacturer’s efforts to refine and improve the vehicle based on market feedback, technological advancements, and competitive pressures. Changes can range from minor cosmetic alterations to significant enhancements in performance, range, or technological features. For example, the 2025 model may incorporate a redesigned front fascia for improved aerodynamics or an upgraded battery pack for increased driving range compared to prior model years. These modifications directly influence the vehicle’s appeal and its standing within the competitive electric vehicle segment. Disregarding the specific model year updates risks misrepresenting the vehicle’s current capabilities and features.
Examining historical model year updates of the Taycan provides context. Prior model years have seen improvements to charging speed, battery management systems, and software features. The 2025 updates might include over-the-air software updates, which allow for continuous improvement and feature enhancements without requiring physical visits to a service center. If consumer feedback highlighted concerns with the infotainment system in previous years, the 2025 update would likely address those specific issues through software revisions or hardware upgrades. These incremental improvements are strategically implemented to maintain the vehicle’s relevance and competitiveness over time. The practical significance of understanding these updates lies in making informed purchasing decisions, recognizing that newer model years typically incorporate enhancements that directly benefit the user.
In conclusion, model year updates are a fundamental aspect of the 2025 Porsche Taycan 4S. They represent the cumulative effect of ongoing development and refinement, impacting performance, technology, and overall user experience. The challenge lies in discerning the specific changes implemented in each model year and evaluating their practical significance. This understanding is crucial for making informed decisions and accurately assessing the vehicle’s capabilities and value proposition. Ignoring model year updates leads to an incomplete understanding of the vehicle and its position within the automotive landscape.
Frequently Asked Questions
The following questions address common inquiries and misconceptions surrounding the 2025 Porsche Taycan 4S. These answers aim to provide clarity and accurate information regarding this specific electric vehicle model.
Question 1: What is the expected range of the 2025 Porsche Taycan 4S?
The estimated driving range will be determined by the EPA testing cycle and the specific battery configuration. Official figures are expected to be released closer to the vehicle’s launch date. Real-world range will vary based on driving conditions, climate, and driving style.
Question 2: What are the key performance specifications of the 2025 Porsche Taycan 4S?
Specific performance figures, including horsepower, torque, and acceleration times, will be detailed in the official vehicle specifications. These figures are subject to change and will be finalized prior to the commencement of production.
Question 3: What charging capabilities does the 2025 Porsche Taycan 4S offer?
The 2025 Porsche Taycan 4S is anticipated to retain its 800-volt architecture, enabling rapid DC fast charging. Compatibility with CCS charging standards will allow access to a wide network of public charging stations. Home charging solutions will also be available.
Question 4: What distinguishes the 2025 Porsche Taycan 4S from previous model years?
Model year updates typically include refinements to performance, technology, and styling. Specific details regarding the 2025 model’s updates will be announced by the manufacturer. Potential updates may include improvements to battery efficiency, software enhancements, or minor exterior design changes.
Question 5: What technological features are expected in the 2025 Porsche Taycan 4S?
The vehicle will incorporate advanced driver-assistance systems, a sophisticated infotainment system, and connectivity features. Specific details regarding the included technology will be outlined in the vehicle’s specifications. Over-the-air software updates may be available to continuously improve and enhance these features.
Question 6: What is the anticipated pricing for the 2025 Porsche Taycan 4S?
Pricing information will be released closer to the vehicle’s launch date. Factors influencing the final price include equipment levels, options, and market conditions. Prospective buyers should consult with authorized dealerships for the most up-to-date pricing information.
These answers provide a general overview of the 2025 Porsche Taycan 4S based on current expectations and available information. The official vehicle specifications and release materials will provide the most accurate and comprehensive details.
The discussion will now transition to a comparative analysis of the 2025 Porsche Taycan 4S against its primary competitors in the luxury electric vehicle segment.
Maximizing the Value of the 2025 Porsche Taycan 4S
This section provides essential considerations for potential owners of the aforementioned vehicle, focusing on optimizing its performance, longevity, and ownership experience.
Tip 1: Utilize Available Charging Infrastructure: Plan routes strategically to leverage public charging networks, especially during extended journeys. Familiarize yourself with the locations of DC fast-charging stations compatible with the vehicle’s charging standards.
Tip 2: Optimize Driving Habits for Range: Employ efficient driving techniques, such as smooth acceleration and deceleration, to maximize the vehicle’s driving range. Avoid aggressive driving maneuvers that deplete battery capacity.
Tip 3: Adhere to Recommended Maintenance Schedules: Follow the manufacturer’s recommended maintenance schedule to ensure the vehicle’s long-term reliability. Regular maintenance can prevent potential issues and preserve the vehicle’s performance.
Tip 4: Manage Tire Pressure: Maintain proper tire inflation levels to optimize fuel efficiency, handling, and tire longevity. Regularly check and adjust tire pressure according to the manufacturer’s specifications.
Tip 5: Leverage Regenerative Braking: Utilize the vehicle’s regenerative braking system to recapture energy during deceleration. This system extends driving range and reduces wear on the conventional braking components.
Tip 6: Protect the Battery: Avoid exposing the battery to extreme temperatures for extended periods. Park the vehicle in shaded areas during hot weather and utilize garage storage in cold climates to preserve battery health.
Tip 7: Familiarize Yourself with Technological Features: Take the time to thoroughly understand and utilize the vehicle’s technological features, including driver-assistance systems and infotainment capabilities. Optimizing use enhances safety and convenience.
By adhering to these guidelines, owners can optimize the performance, efficiency, and longevity of the aforementioned vehicle. Proactive management and informed decision-making contribute to an enhanced ownership experience.
The subsequent section will provide a comprehensive conclusion, summarizing the key attributes and benefits of the aforementioned vehicle.
Conclusion
This analysis has explored key facets of the 2025 Porsche Taycan 4S, encompassing its all-electric powertrain, all-wheel-drive system, performance specifications, battery capacity, charging capabilities, interior design, exterior styling, technological features, and anticipated model year updates. It emphasizes the vehicle’s blend of performance, luxury, and sustainability within the electric vehicle market. The importance of understanding the intricacies of each element contributes to a well-informed perspective on its overall value proposition.
The information presented serves as a foundation for evaluating the vehicle’s potential impact and suitability for prospective owners. Continued advancements and market adaptations will further shape its trajectory within the automotive industry. As the electric vehicle landscape evolves, objective assessment and informed decision-making remain paramount.
