A fog machine with a power rating of 1000 watts represents a common choice for mid-sized venues and events. This power level suggests a substantial output capacity, capable of generating a considerable volume of fog relatively quickly. Such devices typically employ a heating element to vaporize a fog fluid, creating a dense atmospheric effect. An example would be a theatrical production utilizing this type of machine to enhance a dramatic scene.
Machines in this power range offer a balance between cost, portability, and performance. They are often favored for applications requiring a noticeable fog effect without the need for the extreme output of larger, more complex systems. Historically, fog machines have evolved from bulky, cumbersome equipment to more compact and efficient designs. This advancement has broadened their applicability, making them accessible for a wider range of users, from professional entertainers to amateur enthusiasts.
Understanding the capabilities and limitations of different fog machine power ratings is essential for successful implementation. This discussion will further explore factors such as fluid consumption, warm-up times, and control options to provide a comprehensive overview of effective fog generation techniques.
1. Power Consumption
The “1000 w” designation in “1000 w fog machine” directly signifies power consumption. This 1000-watt rating indicates the rate at which the machine converts electrical energy into other forms of energy, primarily heat, to vaporize fog fluid. This power draw has practical implications for circuit loading and operational costs. A machine consuming 1000 watts operating continuously for one hour consumes one kilowatt-hour (kWh) of electricity. Understanding this relationship allows users to estimate operating expenses and ensure compatibility with available power sources. For instance, using the machine for a three-hour event would consume 3 kWh. This information becomes crucial when selecting appropriate power outlets and extension cords to prevent overloads.
The 1000-watt power consumption directly influences the machine’s output capacity and warm-up time. Higher wattage generally translates to faster heating and a greater volume of fog produced per unit of time. This correlation makes 1000-watt fog machines suitable for applications requiring a moderate to high fog density, such as theatrical productions or medium-sized venues. However, higher power consumption also necessitates careful consideration of thermal management. Adequate ventilation is essential to prevent overheating and ensure safe operation. This reinforces the importance of consulting the manufacturers guidelines for proper usage and setup.
In summary, the 1000-watt power consumption of a “1000 w fog machine” is a fundamental parameter impacting performance, operating costs, and safety. Understanding this relationship allows for informed decisions regarding power supply, venue suitability, and operational procedures. Careful consideration of these factors ensures effective fog generation while mitigating potential risks associated with high power draw and heat generation. Neglecting these considerations can lead to inadequate performance, equipment damage, or even safety hazards. Appropriate planning and adherence to manufacturer guidelines are crucial for successful and safe operation of such equipment.
2. Output
Output, characterized by moderate fog density, is a defining characteristic of a 1000-watt fog machine. This output level distinguishes it from lower-wattage machines, which produce less fog, and higher-wattage machines designed for larger venues and denser effects. Understanding this balance is crucial for selecting the appropriate fog machine for a specific application.
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Fluid Vaporization Rate
The 1000-watt power rating drives a moderate fluid vaporization rate. This translates to a consistent, visually appealing fog output suitable for enhancing lighting effects and creating atmosphere without overwhelming the environment. For instance, in a theatrical setting, this density level allows lighting designers to highlight beams and create dramatic silhouettes without obscuring actors or set pieces. Conversely, in a smaller venue, a higher output could quickly lead to excessive fog buildup.
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Coverage Area and Dispersion
Moderate fog density, coupled with typical airflow patterns from these machines, achieves effective coverage across medium-sized spaces. This balance avoids overly concentrated fog pockets while ensuring sufficient dispersion for uniform atmospheric effects. Consider a wedding reception in a moderately sized hall: a 1000-watt machine can provide a pleasant, diffuse fog that enhances the ambiance without hindering visibility or creating breathing difficulties. Overly dense fog, on the other hand, could restrict visibility and create an uncomfortable environment.
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Fluid Consumption and Run Time
The moderate fog density of a 1000-watt machine directly correlates with its fluid consumption rate. This balance allows for reasonable run times without frequent refills, which is crucial for events requiring sustained atmospheric effects. For example, a continuous operation of several hours at a moderate output is achievable with a standard fluid reservoir, reducing interruptions and maintenance during performances or events. Higher-output machines would deplete fluid reserves more quickly, necessitating more frequent refills.
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Visual Impact and Atmosphere
The moderate fog density produced offers a substantial visual enhancement without creating an overly dense, obfuscating effect. This balance allows for atmospheric enhancement while maintaining visibility. In practical applications, this translates to improved lighting effects in a nightclub or a more immersive experience at a haunted house, without compromising safety or guest comfort. An excessively dense fog would detract from the experience, hindering visibility and potentially causing discomfort.
In summary, the moderate fog density associated with 1000-watt fog machines represents a practical balance suitable for a variety of applications. The interplay between fluid vaporization, coverage area, fluid consumption, and visual impact makes these machines a versatile choice for enhancing atmosphere and lighting effects in medium-sized venues. Selecting the correct fog density for the intended application is crucial for achieving the desired visual effect while ensuring safety and comfort.
3. Warm-up time
The “fast heating” characteristic of a 1000-watt fog machine is directly related to its power consumption. The 1000-watt heating element allows for rapid heat transfer to the fog fluid, enabling quick vaporization and fog production. This rapid heating is a significant advantage in time-sensitive applications, such as live performances or events where fog is required on cue. Consider a theatrical production where fog is needed during a specific scene transition; a fast warm-up time ensures the effect is ready precisely when required, enhancing the dramatic impact. Conversely, a slow warm-up time could disrupt the flow of the performance and diminish the intended effect.
The practical significance of fast heating extends beyond immediate fog availability. It also influences operational efficiency and workflow. Reduced warm-up times minimize downtime between fog bursts, allowing operators to focus on other aspects of event production or performance execution. In a concert setting, for example, a fast warm-up time allows the lighting and special effects team to quickly adjust atmospheric effects between songs without extended delays. Furthermore, rapid heating contributes to consistent fog output. Once the optimal operating temperature is reached, the machine maintains a steady fog production rate, ensuring uniform atmospheric effects throughout the event or performance. This consistency is crucial for maintaining visual appeal and avoiding interruptions in the desired ambiance.
In summary, the fast heating facilitated by the 1000-watt power rating is a key attribute contributing to the operational effectiveness of these fog machines. The ability to quickly generate fog on demand, minimize downtime, and maintain consistent output makes them well-suited for dynamic environments requiring precise and reliable atmospheric effects. Understanding the relationship between wattage, heating speed, and operational efficiency allows users to make informed decisions regarding equipment selection and application. This knowledge ensures seamless integration of fog effects into various settings, maximizing their impact and contributing to a more immersive and engaging experience.
4. Fluid Consumption
Fluid consumption is a critical operational consideration for any fog machine, and the “moderate usage” characteristic of a 1000-watt fog machine represents a balance between performance and operational cost. This moderate fluid consumption rate is directly linked to the machine’s power output and intended usage scenarios. Understanding this relationship allows for effective planning and budgeting for fog fluid, minimizing disruptions during operation and ensuring consistent atmospheric effects.
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Consumption Rate and Operational Time
A 1000-watt fog machine’s moderate consumption rate allows for extended operational periods without frequent fluid replenishment. This translates to uninterrupted performance during events or productions, reducing downtime and logistical complexities. For example, a single fluid fill might suffice for a multi-hour event, eliminating the need for interruptions to refill the fluid tank. This extended operational time contributes to smoother event execution and minimizes distractions for both operators and attendees.
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Cost-Effectiveness and Budget Management
Moderate fluid usage directly impacts operational costs. Lower consumption rates translate to lower fluid expenditure over time, making these machines a cost-effective solution for applications requiring regular fog effects. For venues hosting weekly events requiring fog, the moderate consumption rate of a 1000-watt machine contributes to predictable and manageable operational budgets. This predictability allows for better resource allocation and avoids unexpected expenses related to excessive fluid usage.
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Fluid Type and Density
The type of fog fluid used influences both consumption rate and the density of the fog produced. Different fluid formulations cater to specific applications and desired effects. Thicker fog fluids, while creating denser effects, are typically consumed at a higher rate. Understanding the relationship between fluid type, density, and consumption allows operators to select the appropriate fluid for their needs while optimizing consumption and cost-effectiveness. A thinner fluid might be preferred for creating a subtle haze, conserving fluid while still achieving the desired atmospheric effect.
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Output Level and Fluid Consumption Correlation
The fog machine’s output level directly affects fluid consumption. Higher output settings consume fluid more rapidly. The moderate output capacity of a 1000-watt machine allows operators to adjust fog density according to the application while maintaining reasonable fluid consumption rates. This adjustability provides flexibility for creating different atmospheric effects without excessive fluid expenditure. For instance, a lower output setting might suffice for background ambiance, conserving fluid while still providing a noticeable effect.
In conclusion, the moderate fluid consumption of a 1000-watt fog machine offers a practical balance between performance, operational efficiency, and cost-effectiveness. Understanding the interplay between fluid consumption, output levels, fluid types, and operational time allows users to optimize performance while managing operational budgets and ensuring seamless event execution. This balance makes these machines a versatile choice for a variety of applications, from live performances to themed events, where consistent and controllable atmospheric effects are essential.
5. Coverage Area
The coverage area of a 1000-watt fog machine aligns well with the requirements of medium-sized venues. This correlation stems from the balance between fog output volume and dispersion characteristics inherent in these machines. A 1000-watt output provides sufficient fog production to fill spaces like small concert halls, nightclubs, or theatrical stages without requiring multiple machines or excessively high output, which could lead to overly dense fog and limited visibility. The dispersion pattern, often influenced by internal fan designs and ambient airflow, ensures the generated fog spreads relatively evenly throughout the venue, avoiding localized concentrations and creating a more uniform atmospheric effect. For instance, in a wedding reception hall, a single 1000-watt machine positioned strategically can provide a pleasant, diffuse fog throughout the entire space, enhancing the ambiance without obscuring visibility or creating pockets of excessive fog.
The suitability of 1000-watt fog machines for medium-sized venues extends beyond mere output volume. Factors such as warm-up time and fluid consumption rate also play a crucial role. The relatively fast warm-up time of these machines allows for quick deployment of fog effects, essential for dynamic environments like live performances where timing is critical. The moderate fluid consumption rate ensures continuous operation for extended periods without frequent refills, minimizing disruptions during events. This combination of factors makes 1000-watt machines a practical and efficient solution for maintaining consistent atmospheric effects in medium-sized venues throughout an event’s duration. Imagine a school theatrical production where fog is required for several scenes; a 1000-watt machine provides sufficient output and operational longevity without requiring constant attention or fluid replenishment, allowing the technical crew to focus on other aspects of the production.
Understanding the relationship between fog machine output and venue size is critical for achieving the desired atmospheric effects. Undersizing the fog machine can result in inadequate coverage, failing to create the intended ambiance. Oversizing, on the other hand, can lead to excessive fog density, potentially impacting visibility and safety. The 1000-watt fog machine occupies a practical middle ground, offering a balance of performance and practicality well-suited for the spatial and operational requirements of medium-sized venues. Careful consideration of venue dimensions, ceiling height, and ventilation characteristics, combined with an understanding of the fog machine’s output and dispersion patterns, ensures optimal fog distribution and desired atmospheric effects. This understanding allows event organizers and technical personnel to make informed decisions, maximizing the impact of fog effects while maintaining safety and comfort for all attendees.
6. Control methods
Control methods, specifically timers and remote controls, are integral to the effective and safe operation of a 1000-watt fog machine. These features provide operators with flexibility and precision in deploying fog effects, enhancing the machine’s versatility and suitability for various applications. Understanding the functionality and implications of these control mechanisms is crucial for maximizing the machine’s potential and ensuring safe and effective fog generation.
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Timer Control
Timer controls allow for automated fog generation at pre-determined intervals. This functionality is particularly useful for applications requiring periodic fog bursts, such as haunted houses or theatrical productions. Timers eliminate the need for constant manual intervention, allowing operators to focus on other aspects of the event or performance. For example, a timer could be set to trigger the fog machine every five minutes during a haunted house attraction, creating a recurring atmospheric effect without requiring constant operator attention.
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Remote Control Operation
Remote control operation provides greater flexibility and control over fog deployment. Operators can trigger the fog machine remotely, enabling precise timing of fog effects synchronized with other elements of a performance or event. In a live concert, for example, a remote control allows the lighting technician to trigger fog bursts in sync with the music and lighting cues, enhancing the visual impact of the performance. This remote activation capability enhances the dynamism and precision of fog effects, adding another layer of control to the overall production.
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Integration with other Control Systems
Many 1000-watt fog machines offer compatibility with DMX (Digital Multiplex) control protocols. This integration allows for seamless incorporation of the fog machine into larger lighting and special effects systems. DMX control enables precise and synchronized control of multiple devices, including fog machines, lighting fixtures, and other special effects equipment. In a large theatrical production, DMX control can orchestrate a complex sequence of lighting and fog effects, creating a cohesive and impactful visual spectacle.
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Safety and Operational Efficiency
Timer and remote control functionalities contribute to safer and more efficient operation. Remote activation reduces the need for operators to be in close proximity to the machine during operation, minimizing exposure to heat and fog. Timers enable automated operation, reducing the risk of operator error and ensuring consistent fog generation throughout the event. These features collectively enhance operational safety and efficiency, contributing to a smoother and more controlled event execution.
The availability of timer and remote control functionalities significantly enhances the versatility and practicality of a 1000-watt fog machine. These control methods provide operators with precise control over fog deployment, allowing for seamless integration with other systems and contributing to safer and more efficient operation. Careful consideration of these control features when selecting a fog machine is essential for ensuring it meets the specific requirements of the intended application and maximizing the impact of fog effects.
7. Durability
Robust construction is a critical factor influencing the longevity and reliability of a 1000-watt fog machine, especially given the demanding environments in which these machines often operate. The internal components, including the heating element, pump, and electronic circuitry, are subjected to high temperatures, pressure fluctuations, and potential exposure to moisture and fog fluid residue. A robustly constructed machine, typically fabricated from durable materials like metal and high-temperature plastics, withstands these operational stresses, ensuring consistent performance and extended service life. For instance, a metal chassis provides structural integrity and effective heat dissipation, protecting internal components from damage due to overheating. A robust pump, designed to handle the viscosity of fog fluid, ensures consistent fluid delivery to the heating element, minimizing operational inconsistencies and extending the pump’s lifespan.
The practical implications of robust construction extend beyond mere component protection. Durable housing resists impacts and vibrations common during transportation and setup, reducing the risk of damage during transit and handling. Reinforced connections and securely mounted internal components further enhance the machine’s ability to withstand the rigors of frequent movement and setup in various environments. Consider a mobile DJ operating in different venues weekly; a robustly constructed fog machine withstands the constant transport and setup, ensuring reliable performance at each event. Furthermore, durable construction often translates to enhanced safety. Robust housings and internal components minimize the risk of leaks and malfunctions that could lead to fluid spills or electrical hazards, contributing to a safer operating environment for both operators and audiences.
In conclusion, robust construction is a crucial factor in the overall performance, reliability, and safety of a 1000-watt fog machine. Durable materials, reinforced components, and secure assembly contribute to extended service life, consistent performance, and reduced risk of damage during operation and transport. Investing in a robustly constructed machine represents a long-term value proposition, minimizing downtime, repair costs, and potential safety hazards, ultimately contributing to a more reliable and cost-effective operation.
8. Maintenance
Regular cleaning is essential for maintaining the performance and longevity of a 1000-watt fog machine. The process of vaporizing fog fluid inevitably leaves residue within the machine’s internal components, particularly the heating element and nozzle. This residue, if left unaddressed, can accumulate and obstruct fluid flow, leading to decreased fog output, inconsistent performance, and potentially overheating. Furthermore, accumulated residue can negatively impact the quality of the fog produced, resulting in a less dense or unevenly dispersed effect. For example, a clogged nozzle can produce a sputtering effect rather than a smooth, continuous fog output, diminishing the desired atmospheric impact. In extreme cases, neglecting regular cleaning can lead to complete blockage of the fluid pathways, rendering the machine inoperable.
Effective cleaning procedures typically involve flushing the system with a specialized cleaning solution designed to dissolve fog fluid residue. This process removes accumulated deposits from the heating element, nozzle, and internal tubing, restoring optimal fluid flow and ensuring consistent fog output. The frequency of cleaning depends on usage patterns and the type of fog fluid employed. Frequent use or the use of denser fog fluids necessitates more frequent cleaning. Adhering to the manufacturer’s recommended cleaning schedule and procedures is crucial for maximizing the machine’s lifespan and maintaining consistent performance. For instance, a production company using a 1000-watt fog machine nightly for theatrical performances would likely need to implement a more rigorous cleaning schedule than a homeowner using the same machine occasionally for Halloween decorations.
Neglecting regular cleaning can result in costly repairs or premature replacement of the fog machine. Clogged components can lead to overheating, potentially damaging the heating element or other internal parts. Furthermore, inconsistent fog output can disrupt performances or events, diminishing the intended atmospheric effects. Implementing a proactive maintenance schedule, which includes regular cleaning, is a cost-effective strategy for ensuring optimal performance, extending the machine’s operational life, and avoiding unexpected disruptions and repair expenses. Regular cleaning, therefore, represents a crucial aspect of responsible and effective operation of a 1000-watt fog machine, directly impacting its performance, longevity, and overall cost-effectiveness.
9. Safety features
Overheat protection is a critical safety feature in a 1000-watt fog machine, directly addressing the inherent risks associated with high-power heating elements. A 1000-watt element, by design, generates substantial heat to vaporize fog fluid. While essential for fog production, this heat generation presents potential fire hazards if not properly managed. Overheat protection mechanisms mitigate this risk by monitoring internal temperatures and interrupting power to the heating element if a critical threshold is exceeded. This automatic shutoff prevents excessive heat buildup, reducing the risk of fire or component damage. Consider a scenario where a fog machine malfunctions, causing the heating element to remain on continuously; an overheat protection system would activate, cutting power to the element and preventing a potentially dangerous situation. Without this safety feature, the uncontrolled heat buildup could ignite flammable materials nearby or damage the machine itself.
Several factors can contribute to overheating in a fog machine. Insufficient ventilation, extended continuous operation, or blockages in the fluid pathways can all lead to excessive heat buildup. Overheat protection systems address these potential issues by providing a fail-safe mechanism that prevents thermal runaway. These systems typically employ thermal sensors that monitor the temperature of the heating element and associated components. When the sensor detects a temperature exceeding the predetermined safety limit, it triggers a circuit breaker or relay, interrupting power to the heating element. This automated response minimizes the risk of fire or damage even in situations where operator intervention is not immediate. For example, if a fog machine is inadvertently left running unattended in a storage area with limited ventilation, the overheat protection system would activate, preventing a potential fire hazard. This automated safety feature provides an additional layer of protection, mitigating risks associated with operational oversight or equipment malfunction.
Effective overheat protection is crucial not only for fire prevention but also for prolonging the lifespan of the fog machine. Excessive heat can damage internal components, such as the heating element, pump, and electronic circuitry. By preventing overheating, these safety mechanisms protect the machine from premature failure, reducing repair costs and ensuring consistent performance over time. Understanding the function and importance of overheat protection underscores the need for regular maintenance and proper operation. Obstructed fluid pathways or inadequate ventilation can compromise the effectiveness of overheat protection systems. Regular cleaning and adherence to manufacturer guidelines for operation and ventilation ensure optimal performance and maximize the effectiveness of these critical safety features, contributing to a safer and more reliable operation.
Frequently Asked Questions
Addressing common inquiries regarding 1000-watt fog machines provides clarity for informed decision-making and safe operation.
Question 1: How much fog does a 1000-watt fog machine produce?
A 1000-watt fog machine produces a moderate output suitable for medium-sized venues. Output volume depends on factors such as fluid type and machine settings, but generally fills spaces like small concert halls, nightclubs, or theatrical stages effectively.
Question 2: How long does it take to heat up?
Warm-up times vary by model, but 1000-watt machines typically heat up quickly, often within a few minutes, due to the higher wattage heating element. This allows for rapid fog production on demand.
Question 3: What type of fluid is required?
Water-based fog fluids specifically designed for fog machines are required. Using other fluids can damage the machine and produce undesirable or unsafe effects. Fluid density choices depend on the desired effect, from a thin haze to a dense fog.
Question 4: How often does the fluid need refilling?
Fluid consumption depends on usage and output settings. Moderate use of a 1000-watt machine typically allows for several hours of operation on a single fill, minimizing interruptions during events.
Question 5: What safety precautions are necessary?
Adequate ventilation is essential. Fog can irritate respiratory systems in confined spaces. Avoid direct contact with the heating element and hot fog output. Always follow manufacturer guidelines regarding operation and maintenance.
Question 6: How do I clean and maintain the machine?
Regular cleaning is essential for optimal performance. Consult the manufacturer’s instructions for specific cleaning procedures, which often involve flushing the system with a specialized cleaning solution to remove fluid residue.
Understanding these key operational aspects ensures effective and safe use of 1000-watt fog machines, maximizing their potential for creating desired atmospheric effects.
Further exploration of specific fog machine models and their individual specifications can provide additional detail relevant to specific application needs.
Tips for Effective Fog Machine Operation
Optimizing fog machine usage involves understanding key operational parameters and implementing best practices to ensure effective fog production, equipment longevity, and safe operation.
Tip 1: Fluid Selection: Selecting the appropriate fog fluid is crucial. Fluid density impacts fog visibility and dispersion. Thinner fluids create a haze, while denser fluids produce a thicker fog. Always utilize high-quality fluid specifically designed for fog machines to prevent equipment damage.
Tip 2: Warm-up Time: Allow sufficient warm-up time before operation. Consult the manufacturer’s instructions for the recommended warm-up period. Adequate warm-up ensures consistent fog output and prevents damage to the heating element.
Tip 3: Ventilation: Ensure adequate ventilation in the operating area. Fog can irritate respiratory systems in confined spaces. Proper ventilation disperses fog effectively and maintains a safe breathing environment for all individuals present.
Tip 4: Output Control: Adjust fog output according to the specific application and venue size. Excessive fog can obscure visibility and create an uncomfortable environment. Utilize output controls, such as timers or remote controls, to regulate fog density and distribution.
Tip 5: Regular Cleaning: Implement a regular cleaning schedule. Fluid residue can accumulate within the machine, impacting performance and longevity. Consult the manufacturer’s instructions for recommended cleaning procedures and frequency. Thorough cleaning removes residue and maintains optimal fog output.
Tip 6: Safety Features: Understand and utilize the machine’s safety features, including overheat protection. Overheat protection prevents damage to the machine and mitigates fire hazards. Ensure adequate ventilation and avoid covering vents during operation.
Tip 7: Storage: Store the fog machine in a dry, cool environment. Proper storage prevents moisture buildup and protects internal components. Empty the fluid tank before storing to prevent leaks and damage.
Adherence to these operational guidelines contributes significantly to efficient fog production, prolonged equipment lifespan, and a safe operating environment for both operators and audiences.
By implementing these practices, one ensures consistent and impactful fog effects while maximizing equipment longevity and minimizing potential risks.
Conclusion
A 1000-watt fog machine represents a versatile tool capable of enhancing atmospheric effects in various settings. This exploration has highlighted key aspects of these machines, from power consumption and output characteristics to control methods, maintenance requirements, and essential safety features. Understanding the interplay of these factors allows for informed decision-making regarding machine selection, operation, and maintenance, ultimately contributing to effective and safe fog generation.
Effective utilization of fog machines necessitates careful consideration of venue size, desired fog density, operational logistics, and safety protocols. Adherence to manufacturer guidelines and best practices ensures optimal performance, prolongs equipment lifespan, and mitigates potential risks. Continued advancements in fog machine technology promise further refinements in control, efficiency, and fluid formulations, expanding the creative possibilities for atmospheric enhancement in diverse applications.
