Return-path: Envelope-to: lojban@lojban.org Delivery-date: Thu, 31 Aug 2023 16:31:01 -0700 Received: from [140.99.140.67] (port=52748 helo=mail.qsteii.com) by b39ccf38b4ec with esmtp (Exim 4.96) (envelope-from ) id 1qbr7n-002bvo-2m for lojban@lojban.org; Thu, 31 Aug 2023 16:30:59 -0700 DKIM-Signature: v=1; a=rsa-sha1; c=relaxed/relaxed; s=dkim; d=qsteii.com; h=Date:From:To:Subject:MIME-Version:Content-Type:List-Unsubscribe:Message-ID; i=yeti@qsteii.com; bh=iAhZL1jVrlnOGdF1kWTfLqAlqRQ=; b=RLJIe67x5xUUdp5WGx0hlsw9VuslCetqjiyo9vOEsE5oLJ5CJwoZ2p3dS9SGHboSv1cvLrfdkJKK WAbYhY5ZiBw7H6+ZACJvQ6n2xqlaK3pgIkP9FwndSnn4tfnsQQhoh7BWQNeTo0chg6LISSJ9NdG3 mJOi9KR2/rbLtiAuBQE= DomainKey-Signature: a=rsa-sha1; c=nofws; q=dns; s=dkim; d=qsteii.com; b=n3F23EH6CnarQCJwQyErFYLEJiqEYP/EXHB7isD2lMZSLnjP8nZfMfQsq03CTWJwlHKXjHQeG2Rl r9nHZyxlDTV0jElvf6j4+JKqzeMD64WVqKy96/MMu4o0LtjXuzg9bQ38XiaKYqyadfG475XKF3iM QtJB6ZsfTd1+CxPaPdU=; Received: by mail.qsteii.com id hu4e3i0001g5 for ; Thu, 31 Aug 2023 18:54:16 -0400 (envelope-from ) Date: Thu, 31 Aug 2023 18:54:16 -0400 From: Yeti To: Subject: Your Yeti Tundra CooIer Must Be CIaimed By September 1st MIME-Version: 1.0 Content-Type: multipart/alternative; boundary="----=_Part_49_793741660.1693524105032" List-Unsubscribe: Message-ID: <0.0.0.5.1D9DC5E117D0A56.25E8F7@mail.qsteii.com> X-Spam-Score: 3.8 (+++) X-Spam_score: 3.8 X-Spam_score_int: 38 X-Spam_bar: +++ X-Spam-Report: Spam detection software, running on the system "50bab00d4276", has NOT identified this incoming email as spam. The original message has been attached to this so you can view it or label similar future email. If you have any questions, see @@CONTACT_ADDRESS@@ for details. Content preview: Dear Dick's Sporting Goods Customer, Get ready for your next adventure with the Yeti Tundra Cooler! Simply answer a few quick questions before September 1st and claim your reward. Content analysis details: (3.8 points, 5.0 required) pts rule name description ---- ---------------------- -------------------------------------------------- 1.7 URIBL_BLACK Contains an URL listed in the URIBL blacklist [URIs: qsteii.com] 0.2 BAYES_999 BODY: Bayes spam probability is 99.9 to 100% [score: 1.0000] 3.5 BAYES_99 BODY: Bayes spam probability is 99 to 100% [score: 1.0000] 0.0 URIBL_DBL_BLOCKED_OPENDNS ADMINISTRATOR NOTICE: The query to dbl.spamhaus.org was blocked due to usage of an open resolver. 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See https://www.spamhaus.org/returnc/pub/ [URIs: qsteii.com] -0.0 SPF_PASS SPF: sender matches SPF record 0.0 SPF_HELO_NONE SPF: HELO does not publish an SPF Record 0.0 HTML_MESSAGE BODY: HTML included in message 0.0 MIME_QP_LONG_LINE RAW: Quoted-printable line longer than 76 chars -0.1 DKIM_VALID Message has at least one valid DKIM or DK signature 0.1 DKIM_SIGNED Message has a DKIM or DK signature, not necessarily valid -0.1 DKIM_VALID_AU Message has a valid DKIM or DK signature from author's domain -0.1 DKIM_VALID_EF Message has a valid DKIM or DK signature from envelope-from domain 0.9 RAZOR2_CHECK Listed in Razor2 (http://razor.sf.net/) 1.9 RAZOR2_CF_RANGE_51_100 Razor2 gives confidence level above 50% [cf: 100] 0.8 RDNS_NONE Delivered to internal network by a host with no rDNS ------=_Part_49_793741660.1693524105032 Content-Type: text/plain; charset=utf-8 Content-Transfer-Encoding: quoted-printable Dear Dick's Sporting Goods Customer, Get ready for your next adventure with the Yeti Tundra Cooler! Simply answer a few quick questions before September 1st and claim your rew= ard.=20 Go Right Here To Get Your Yeti Tundra CooIer http://www.qsteii.com/e3f4p2395n8Z6W11rS188dH700N18RhscFDrfhscFDrEsvZ7cQMnQen7r1K0Vro5QBijb/conspiracies-inviting =20 Adventure Awaits In a world where the pursuit of comfort meets the heights of innovation, th= e concept of maintaining the perfect temperature for our beverages has take= n a new and fascinating turn. From humble beginnings as simple containers,= cups have evolved into sophisticated vessels designed not only to hold our= drinks but to preserve their ideal temperature. The marriage of aesthetic= s and functionality has given birth to a range of temperature-controlled cu= ps that promise to keep your drinks cold, whether you're basking under the = scorching sun or engrossed in the warmth of your home. This article delves= into the fascinating world of these cups, exploring their inception, engin= eering marvels, and the science that keeps your refreshments at the perfect= chill. Chapter 1: A Brief History of Temperature-Controlled Cups The jour= ney of temperature-controlled cups began centuries ago with the quest to ke= ep drinks cool in the sweltering heat. Ancient civilizations ingeniously u= sed materials like clay and ceramics, capitalizing on the evaporative cooli= ng effect to enjoy mildly chilled beverages. Fast forward to the modern er= a, the 19th century marked a turning point with the invention of the icebox= , paving the way for more advanced cooling technologies. It wasn't until t= he latter half of the 20th century that the concept of cups specifically de= signed for temperature control began to take shape. Chapter 2: Engineering= Marvels - How Do They Work? Temperature-controlled cups are a testament to= the brilliance of engineering and thermodynamics. Many of these cups are = constructed with double-walled insulation, effectively creating a barrier t= hat prevents external temperature from affecting the contents inside. The = space between the walls is often vacuum-sealed to minimize heat transfer vi= a conduction. This design ensures that your drink remains untouched by the= ambient warmth, maintaining its desired chill for a more extended period. = Incorporating phase-change materials adds another layer of sophistication.= These materials, often encased within the cup's walls, absorb heat when t= he temperature rises, causing them to undergo a phase transition from solid= to liquid. This absorption of heat helps to keep the drink cold, acting a= s a thermal buffer that prevents rapid temperature changes. Chapter 3: The= Role of Modern Technology As technology has leaped forward, so has the dev= elopment of temperature-controlled cups. Smart cups equipped with miniatur= e thermoelectric coolers have made their appearance. These cups are synced= with smartphone apps, allowing users to set their preferred drink temperat= ure. The thermoelectric cooler then actively cools or warms the beverage, = ensuring it stays at the desired temperature even in the face of changing e= xternal conditions. Furthermore, wireless charging technology has paved th= e way for self-cooling cups. These innovative cups are placed on a chargin= g pad, which activates a cooling mechanism within the cup itself. This tec= hnological marvel allows for convenience and portability, making them a hit= among travelers, outdoor enthusiasts, and anyone seeking an uninterrupted = icy refreshment. Chapter 4: Diving into the Science of Cold Retention The = science behind the success of temperature-controlled cups is rooted in fund= amental thermodynamics. Heat transfer occurs through three main mechanisms= : conduction, convection, and radiation. Temperature-controlled cups effec= tively tackle these processes. The insulated double-walled design minimize= s conduction, the phase-change materials mitigate convection, and the refle= ctive coatings on cup surfaces combat radiation. Moreover, the choice of m= aterials also plays a crucial role. Advanced insulating materials with low= thermal conductivity contribute to the cup's efficiency in maintaining col= d temperatures. A thorough understanding of these scientific principles ha= s enabled engineers to create cups that outperform traditional drinkware. = Chapter 5: Sustainability and the Future As the world turns its focus towar= d sustainability, temperature-controlled cups are also adapting to meet the= challenge. Manufacturers are exploring eco-friendly alternatives to insul= ation materials and phase-change substances. Additionally, the energy effi= ciency of cooling technologies is being improved to reduce the environmenta= l footprint of these cups. Looking ahead, the future holds promise for eve= n more innovative solutions. Nanotechnology might soon find its way into t= he realm of temperature-controlled cups, enhancing insulation properties an= d thermal management. As the fusion of technology, design, and environment= al consciousness continues, the cups of tomorrow are poised to redefine the= way we enjoy our beverages. Conclusion Temperature-controlled cups have c= ome a long way from the rudimentary methods of the past. These cups are no= t just about keeping your drinks cold; they're a celebration of human ingen= uity and our ceaseless pursuit of convenience and comfort. From double-wal= led insulation to smart thermoelectric coolers, these cups have seamlessly = integrated science and technology into our daily lives. As we raise these = innovative vessels to our lips, we're also raising a toast to human creativ= ity and our ability to turn simple objects into extraordinary experiences. = So, whether you're sipping a chilled lemonade on a scorching summer day or= enjoying a frosty beverage by the fireplace, temperature-controlled cups s= tand as a testament to the endless possibilities of human innovation.=20 ------=_Part_49_793741660.1693524105032 Content-Type: text/html; charset=us-ascii Content-Transfer-Encoding: quoted-printable =20 =20 =20 =20
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Dear Dick's Sporting Goods Customer,

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Get ready for your next adventure with the Yeti Tundra Cooler!

= =20

Simply answer a few quick questions before September 1st and claim = your reward.

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=20 Go Right Here To Get Your Yeti Tundra CooIer<= /a>=20
=20
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3D"Adventure
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In a world where the pursuit of comfort meets the heights of innovat= ion, the concept of maintaining the perfect temperature for our beverages h= as taken a new and fascinating turn. From humble beginnings as simple conta= iners, cups have evolved into sophisticated vessels designed not only to ho= ld our drinks but to preserve their ideal temperature. The marriage of aest= hetics and functionality has given birth to a range of temperature-controll= ed cups that promise to keep your drinks cold, whether you're basking under= the scorching sun or engrossed in the warmth of your home. This article de= lves into the fascinating world of these cups, exploring their inception, e= ngineering marvels, and the science that keeps your refreshments at the per= fect chill. Chapter 1: A Brief History of Temperature-Controlled Cups The j= ourney of temperature-controlled cups began centuries ago with the quest to= keep drinks cool in the sweltering heat. Ancient civilizations ingeniously= used materials like clay and ceramics, capitalizing on the evaporative coo= ling effect to enjoy mildly chilled beverages. Fast forward to the modern e= ra, the 19th century marked a turning point with the invention of the icebo= x, paving the way for more advanced cooling technologies. It wasn't until t= he latter half of the 20th century that the concept of cups specifically de= signed for temperature control began to take shape. Chapter 2: Engineering = Marvels - How Do They Work? Temperature-controlled cups are a testament to = the brilliance of engineering and thermodynamics. Many of these cups are co= nstructed with double-walled insulation, effectively creating a barrier tha= t prevents external temperature from affecting the contents inside. The spa= ce between the walls is often vacuum-sealed to minimize heat transfer via c= onduction. This design ensures that your drink remains untouched by the amb= ient warmth, maintaining its desired chill for a more extended period. Inco= rporating phase-change materials adds another layer of sophistication. Thes= e materials, often encased within the cup's walls, absorb heat when the tem= perature rises, causing them to undergo a phase transition from solid to li= quid. This absorption of heat helps to keep the drink cold, acting as a the= rmal buffer that prevents rapid temperature changes. Chapter 3: The Role of= Modern Technology As technology has leaped forward, so has the development= of temperature-controlled cups. Smart cups equipped with miniature thermoe= lectric coolers have made their appearance. These cups are synced with smar= tphone apps, allowing users to set their preferred drink temperature. The t= hermoelectric cooler then actively cools or warms the beverage, ensuring it= stays at the desired temperature even in the face of changing external con= ditions. Furthermore, wireless charging technology has paved the way for se= lf-cooling cups. These innovative cups are placed on a charging pad, which = activates a cooling mechanism within the cup itself. This technological mar= vel allows for convenience and portability, making them a hit among travele= rs, outdoor enthusiasts, and anyone seeking an uninterrupted icy refreshmen= t. Chapter 4: Diving into the Science of Cold Retention The science behind = the success of temperature-controlled cups is rooted in fundamental thermod= ynamics. Heat transfer occurs through three main mechanisms: conduction, co= nvection, and radiation. Temperature-controlled cups effectively tackle the= se processes. The insulated double-walled design minimizes conduction, the = phase-change materials mitigate convection, and the reflective coatings on = cup surfaces combat radiation. Moreover, the choice of materials also plays= a crucial role. Advanced insulating materials with low thermal conductivit= y contribute to the cup's efficiency in maintaining cold temperatures. A th= orough understanding of these scientific principles has enabled engineers t= o create cups that outperform traditional drinkware. Chapter 5: Sustainabil= ity and the Future As the world turns its focus toward sustainability, temp= erature-controlled cups are also adapting to meet the challenge. Manufactur= ers are exploring eco-friendly alternatives to insulation materials and pha= se-change substances. Additionally, the energy efficiency of cooling techno= logies is being improved to reduce the environmental footprint of these cup= s. Looking ahead, the future holds promise for even more innovative solutio= ns. Nanotechnology might soon find its way into the realm of temperature-co= ntrolled cups, enhancing insulation properties and thermal management. As t= he fusion of technology, design, and environmental consciousness continues,= the cups of tomorrow are poised to redefine the way we enjoy our beverages= Conclusion Temperature-controlled cups have come a long way from the rudi= mentary methods of the past. These cups are not just about keeping your dri= nks cold; they're a celebration of human ingenuity and our ceaseless pursui= t of convenience and comfort. From double-walled insulation to smart thermo= electric coolers, these cups have seamlessly integrated science and technol= ogy into our daily lives. As we raise these innovative vessels to our lips,= we're also raising a toast to human creativity and our ability to turn sim= ple objects into extraordinary experiences. So, whether you're sipping a ch= illed lemonade on a scorching summer day or enjoying a frosty beverage by t= he fireplace, temperature-controlled cups stand as a testament to the endle= ss possibilities of human innovation.

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