K5 education

The original version of this pattern was contributed by LadyWinter. Shown with a cast-on count of 8 stitches. Row 1 (RS): K5, yo, k1, yo, k2 (10 sts).Row 2: P6, (p1, k1) in next st, k3 (11 sts).Row 3: K4, p1, k2, yo, k1, yo, k3 (13 sts).Row 4: P8, (p1, k1) in next st, k4 (14 sts).Row 5: K4, p2, k3, yo, k1, yo, k4 (16 sts).Row 6: P10, (p1, k1) in next st, k5 (17 sts).Row 7: K4, p3, k4, yo, k1, yo, k5 (19 sts).Row 8: P12, (p1, k1) in next st, k6 (20 sts).Row 9: K4, p4, ssk, k7, k2tog, k1 (18 sts).Row 10: P10, (p1, k1) in next st, k7 (19 sts).Row 11: K4, p5, ssk, k5, k2tog, k1 (17 sts).Row 12: P8, (p1, k1) in next st, k2, p1, k5 (18 sts).Row 13: K4, p1, k1, p4, ssk, k3, k2tog, k1 (16 sts).Row 14: P6, (p1, k1) in next st, k3, p1, k5 (17 sts).Row 15: K4, p1, k1, p5, ssk, k1, k2tog, k1 (15 sts).Row 16: P4, (p1, k1) in next st, k4, p1, k5 (16 sts).Row 17: K4, p1, k1, p6, k3tog, k1 (14 sts).Row 18: BO 6 sts, p3, k4 (8 sts).

Typy a rozměry ložisek v příslušném katalogu.Tolerance průměru čepu pro radiální ložiska Provozní podmínky Tolerance pro ložiska kuličková válečkovákuželíková soudečkovátoroidní Bodové zatížení vnitřního kroužku Malé a normální zatížení g6 Velké a rázové zatížení h6 Obvodové zatížení vnitřního kroužku, neurčitý způsob zatížení Malé a proměnné zatížení (P j6, k6 j6, k6 Střední a velké zatížení (P>0.07*C) j5, k5, k6, m5, m6, n6 k5, k6, m5, m6, n6, p6 k5, k6, m5, m6, n6, p6, r6, r7 Velmi velké zatížení, rázy (P>0.15*C) n6, r6, p6 n6, r6, p6 Velká přesnost uložení, malé zatížení h5, j5, k5 j5, k5 Výhradně axiální zatížení j6, js6 j6, js6 Tolerance průměru děr těles pro radiální ložiska Provozní podmínky Tolerance Obvodové zatížení zatížení vnějšího kroužku Velmi velké zatížení, rázy (P>0.15*C) P7 Střední a velké zatížení (P>0.07*C) N7 Malé a proměnné zatížení (P M7 Neurčitý způsob zatížení Velké rázové zatížení M7 Normální a velké zatížení (P>0.07*C) K7 Malé a normální zatížení (P J7 Přesný nebo tichý chod Kuličková ložiska J6 Ostatní ložiska JS5, K5, K6 Bodové zatížení vnějšího kroužku Všechna zatížení (P H7, H8 Přívod tepla hřídelem G7 Tolerance průměru čepu a děr těles pro axiální ložiska Typ ložiska Tolerance čepu tělesa Axiální kuličkové, válečkové j6, h6, h8 H7, H8, H10 Axiální soudečkové j6, js6, k6, m6, n6 H7, K7, M7 Postup návrhu.Volba, výpočet a kontrola valivého ložiska se skládá z následujících kroků: Nastavte požadované jednotky výpočtu (SI / Imperial). [1.1]Z výběrového seznamu [1.2] vyberte požadovaný typ ložiska. S volbou vhodného typu vám může pomoci srovnávací dokument "Volba

How to set the RIB-scale value to 100: Router# configure terminalRouter(config)# router eigrp virtual-nameRouter(config-router)# address-family ipv4 autonomous-system 4533Router(config-router-af)# metric rib-scale 100 Related Commands Command Description metric weights (EIGRP) Tunes EIGRP metric calculations. metric weights (EIGRP) To tune the Enhanced Interior Gateway Routing Protocol (EIGRP) metric calculations, use the metric weights command in router configuration mode or address family configuration mode. To reset the values to their defaults, use the no form of this command. Router Configuration metric weights tos k1 k2 k3 k4 k5 no metric weights Address Family Configuration metric weights tos [k1 [k2 [k3 [k4 [k5 [k6] ]]]]] no metric weights Syntax Description tos Type of service. This value must always be zero. k1 k2 k3 k4 k5 k6 (Optional) Constants that convert an EIGRP metric vector into a scalar quantity. Valid values are 0 to 255. Given below are the default values: k1: 1 k2: 0 k3: 1 k4: 0 k5: 0 k6: 0 Note In address family configuration mode, if the values are not specified, default values are configured. The k6 argument is supported only in address family configuration mode. Command Default EIGRP metric K values are set to their default values. Command Modes Router configuration (config-router) Address family configuration (config-router-af) Command History Release Modification 10.0 This command was introduced. 12.4(6)T This command was modified. Support for IPv6 was added. 12.2(33)SRB This command was integrated into Cisco IOS Release 12.2(33)SRB. Cisco IOS XE Release 2.1 This command was integrated into Cisco IOS XE Release 2.1. 12.2SX

First Apostolic Church Maryville is the realization of what has been affectionately termed the “Maryville Miracle” – the creation of an impressive campus spanning over 80,000 square feet. This remarkable achievement, which includes state-of-the-art facilities for worship, education, and community engagement, stands as a testament to the church’s unwavering faith, sacrificial spirit, and dedication to serving its members and the broader community.Becoming a Community HubAs First Apostolic Church Maryville continued to grow and flourish, it evolved into more than just a place of worship. It became a vibrant community hub, offering a range of services, programs, and resources to meet the diverse needs of its members and the surrounding community. From educational initiatives like a preschool and K5-12th grade academy to a welcoming coffee shop and various outreach programs, the church became a central pillar of support and encouragement for individuals and families of all ages.A Beacon of Faith and ServiceAt the core of First Apostolic Church Maryville’s journey is a deep-rooted commitment to faith and service. Guided by the teachings of the Bible and a desire to make a positive difference in the world, the church has been actively involved in supporting missions both locally and globally. Whether through humanitarian efforts, disaster relief initiatives, or community outreach projects, the church’s impact extends far beyond its walls, touching lives and spreading hope wherever it goes.Celebrating Milestones and Looking AheadAs First Apostolic Church Maryville celebrates its milestones and accomplishments, it also looks ahead with a sense of excitement and anticipation. With a rich history of resilience, growth, and community engagement, the church remains committed to upholding its core values, inspiring positive change, and fostering deeper connections with its members and the broader community. The journey from humble beginnings to a thriving community hub is not just a reflection of the church’s past but a testament to its enduring legacy and bright future.Published By: Aize Perez

This command is supported in the Cisco IOS Release 12.2SX train. Support in a specific 12.2SX release of this train depends on your feature set, platform, and platform hardware. 12.2(33)SRE This command was modified. The address family configuration mode was added. 15.0(1)M This command was modified. The address family configuration mode was added. Cisco IOS XE Release 2.5 This command was modified. The address family configuration mode was added. 15.1(3)S This command was modified. The k6 argument was added. Cisco IOS XE Release 3.4S This command was modified. The k6 argument was added. 15.2(2)T This command was modified. The k6 argument was added. 15.1(1)SY This command was modified. The k6 argument was added. Usage Guidelines Use this command to alter the default behavior of EIGRP routing and metric computation and to allow the tuning of the EIGRP metric calculation for a particular type of service (ToS). If k5 equals 0, the composite EIGRP metric is computed according to the following formula: metric = [k1 * bandwidth + (k2 * bandwidth)/(256 – load) + k3 * delay + K6 * extended metrics] If k5 does not equal zero, an additional operation is performed: metric = metric * [k5/(reliability + k4)] Scaled Bandwidth= 107/minimum interface bandwidth (in kilobits per second) * 256 Delay is in tens of microseconds for classic mode and pico seconds for named mode. In classic mode, a delay of hexadecimal FFFFFFFF (decimal 4294967295) indicates that the network is unreachable. In named mode, a delay of hexadecimal FFFFFFFFFFFF (decimal