In this video, I'll be showcasing mega boss survival infinite script which allows you have to unlimited points in the game where all you have to do is change the numbers to you're choice.. Subway Boss Ingo is a character that first appeared in Pokmon Black and White Version. Size = Vector3.new(0.864285767, 0.221428677, 5.65714407). Featured : Auto Farm Auto Farm Boss Devil fruits ESP Bring Devil fruits Auto Hunt chest Player ESP Raid kill aura Etc. It depicts how all life comes from one singular source New Age groups use and study the symbol to try to attain enlightenment and find deeper meaning in life. Size = Vector3.new(0.564285755, 0.257142901, 0.514285743). A about maka addition mgbak afternoon ehihie airplane gb elu all niile, dum, ncha also kwaa, -kwazi and na anglican (person) onye anglican animal an April onwa-iri as ka at na, n' August onwa-ab B bad j, nj bag akpa banana ogede be (verb) b be tasty (verb) tr t be, be present in location (verb) n be, have the quality of, be in (verb) d beans agwa.. "Sinc This ranges from modified player textures to a whole new look for the van. math.random(-Bounding[Body1.Name].X, Bounding[Body1.Name].X)/35. C1 = CFrame.new(7.1258049, 1.38688946, -56.830143, -0.999990702, 0.00427594269, -0.000560964399, 0.000554880884, -0.00142379443, -0.999998868, -0.00427673617, -0.999989867, 0.00142140849). Microsoft is quietly building a mobile Xbox store that will rely on Activision and King games. text 3.22 KB | None | 0 0 raw download clone embed print report local ScreenGui = Instance.new ("ScreenGui") turnBG.cframe = camCF * CFrame.Angles(-math.rad(forward * (flySpeed / MAX_FLY_SPEED)), 0, game:service'RunService'.RenderStepped:connect(function(), if Debounces.Slashing == true and Debounces.Slashed == false then, hit:FindFirstChild("Humanoid"):TakeDamage(math.huge), if hit.Parent:FindFirstChild("Humanoid") then, hit.Parent:FindFirstChild("Humanoid"):TakeDamage(math.huge), rarm.Weld.C0 = Lerp(rarm.Weld.C0, CFrame.new(5,0.65,-6)*CFrame.Angles(math.rad(60),math.rad(70),math.rad(70)), 0.2), larm.Weld.C0 = Lerp(larm.Weld.C0, CFrame.new(-1.5,-1,2.2) *CFrame.Angles(math.rad(-20),math.rad(0),math.rad (-40)), 0.2), hed.Weld.C0 = Lerp(hed.Weld.C0, CFrame.new(0,6.8,0)*CFrame.Angles(math.rad(0),math.rad(-50), math.rad(0)), 0.2), torso.Weld.C0 = Lerp(torso.Weld.C0, CFrame.new(-.4, -1, 0) * CFrame.Angles(math.rad(0), math.rad(70), math.rad(0)), 0.2), lleg.Weld.C0 = Lerp(lleg.Weld.C0, CFrame.new(-0.1, -1, 0) * CFrame.Angles (math.rad(-10), 0, math.rad(-10)), 0.2), rleg.Weld.C0 = Lerp(rleg.Weld.C0, CFrame.new(0.1, -1, 0) * CFrame.Angles (math.rad(10), 0, math.rad(10)), 0.2), z.SoundId = "rbxassetid://"..idz[math.random(1,#idz)], rarm.Weld.C0 = Lerp(rarm.Weld.C0, CFrame.new(2, -2, 3) * CFrame.Angles(math.rad(-40),math.rad(-20),math.rad(40)), 0.3), larm.Weld.C0 = Lerp(larm.Weld.C0, CFrame.new(-1, 0.65, -.3) * CFrame.Angles(math.rad(65),math.rad(-20),math.rad(30)), 0.3), hed.Weld.C0 = Lerp(hed.Weld.C0, CFrame.new(0, 6.8, 0) * CFrame.Angles(math.rad(-9),math.rad(35), math.rad(0)), 0.3), torso.Weld.C0 = Lerp(torso.Weld.C0, CFrame.new(0, -1, 1) * CFrame.Angles(math.rad(0), math.rad(-65), math.rad(0)), 0.3), lleg.Weld.C0 = Lerp(lleg.Weld.C0, CFrame.new(-0.1, -1, 0) * CFrame.Angles(math.rad(10), 0, math.rad(-10)), 0.3), rleg.Weld.C0 = Lerp(rleg.Weld.C0, CFrame.new(0.1, -1, 0) * CFrame.Angles(math.rad(-10), 0, math.rad(10)), 0.3), larm.Weld.C0 = Lerp(larm.Weld.C0, CFrame.new(-1.1, 0.6, -.4) * CFrame.Angles(math.rad(130), 0, math.rad(40)), 0.3), rarm.Weld.C0 = Lerp(rarm.Weld.C0, CFrame.new(1.1, 0.6, -.4) * CFrame.Angles(math.rad(130), 0, math.rad(-40)), 0.3), torso.Weld.C0 = Lerp(torso.Weld.C0, CFrame.new(0, -1, 0) * CFrame.Angles(math.rad(30), 0, 0), 0.3), hed.Weld.C0 = Lerp(hed.Weld.C0, CFrame.new(0, 6.8, 0) * CFrame.Angles(math.rad(50), 0, 0), 0.3), lleg.Weld.C0 = Lerp(lleg.Weld.C0, CFrame.new(-0.5, -1, 0) * CFrame.Angles(math.rad(-30), 0, 0), 0.3), rleg.Weld.C0 = Lerp(rleg.Weld.C0, CFrame.new(0.5, -.2, -.5) * CFrame.Angles(math.rad(-10), 0, 0), 0.3), cor.Weld.C1 = Lerp(cor.Weld.C1, CFrame.new(0, 2, 0) * CFrame.Angles (math.rad(40), math.rad(0), math.rad(0)), 0.35), z1.SoundId = "rbxassetid://"..idz[math.random(1,#idz)], larm.Weld.C0 = Lerp(larm.Weld.C0, CFrame.new(-1.1, 0.6, -.4) * CFrame.Angles(math.rad(50), 0, math.rad(40)), 0.3), rarm.Weld.C0 = Lerp(rarm.Weld.C0, CFrame.new(1.1, 0.6, -.4) * CFrame.Angles(math.rad(50), 0, math.rad(-40)), 0.3), torso.Weld.C0 = Lerp(torso.Weld.C0, CFrame.new(0, -2, 0) * CFrame.Angles(math.rad(-30), 0, 0), 0.3), hed.Weld.C0 = Lerp(hed.Weld.C0, CFrame.new(0, 6.8, 0) * CFrame.Angles(math.rad(10), 0, 0), 0.3), lleg.Weld.C0 = Lerp(lleg.Weld.C0, CFrame.new(-0.5, 0, -.7) * CFrame.Angles(math.rad(20), 0, 0), 0.3), rleg.Weld.C0 = Lerp(rleg.Weld.C0, CFrame.new(0.5, -1, -.1) * CFrame.Angles(math.rad(-40), 0, 0), 0.3), cor.Weld.C1 = Lerp(cor.Weld.C1, CFrame.new(0, 2, 0) * CFrame.Angles (math.rad(40), math.rad(20), math.rad(20)), 0.35), larm.Weld.C0 = Lerp(larm.Weld.C0, CFrame.new(-8.2, -2.9, 0) * CFrame.Angles(math.rad(0), 0, math.rad(-90)), 0.8), rarm.Weld.C0 = Lerp(rarm.Weld.C0, CFrame.new(8.2, -2.9, 0) * CFrame.Angles(math.rad(0), 0, math.rad(90)), 0.8), torso.Weld.C0 = Lerp(torso.Weld.C0, CFrame.new(0, -1, 0) * CFrame.Angles(0, 0, 0), 0.8), hed.Weld.C0 = Lerp(hed.Weld.C0, CFrame.new(0, 6.8, 0) * CFrame.Angles(0, 0, 0), 0.8), lleg.Weld.C0 = Lerp(lleg.Weld.C0, CFrame.new(-0.5, -1, 0) * CFrame.Angles(math.rad(0), 0, 0), 0.8), rleg.Weld.C0 = Lerp(rleg.Weld.C0, CFrame.new(0.5, -1, 0) * CFrame.Angles(math.rad(0), 0, 0), 0.8), cor.Weld.C1 = Lerp(cor.Weld.C1, CFrame.new(0, 2, 0) * CFrame.Angles (math.rad(80), math.rad(0), math.rad(0)), 0.35), torso.Weld.C1 = CFrame.new(0, -1, 0) * CFrame.Angles(math.rad(0), math.rad(i), math.rad(0)), u.SoundId = "http://www.roblox.com/asset/?id=261303790", u2.SoundId = "http://www.roblox.com/asset/?id=261303790", u3.SoundId = "http://www.roblox.com/asset/?id=261303790", game:GetService("RunService").RenderStepped:connect(function(), char.Humanoid.FreeFalling:connect(function(f), elseif (torso.Velocity*Vector3.new(1, 0, 1)).magnitude < 2 then, elseif (torso.Velocity*Vector3.new(1, 0, 1)).magnitude < 20 then, elseif (torso.Velocity*Vector3.new(1, 0, 1)).magnitude > 20 then, rarm.Weld.C0 = Lerp(rarm.Weld.C0, CFrame.new(3,-2.2,0)*CFrame.Angles(math.rad(0),math.rad(0),math.rad(40)), 0.2), larm.Weld.C0 = Lerp(larm.Weld.C0, CFrame.new(-1.5,-0.65,0)*CFrame.Angles(math.rad(-20),math.rad(0),math.rad(-20)), 0.2), hed.Weld.C0 = Lerp(hed.Weld.C0, CFrame.new(0,6.8,-.2)*CFrame.Angles(math.rad(-14),math.rad(50),0), 0.2), torso.Weld.C0 = Lerp(torso.Weld.C0, CFrame.new(0, -1, 0) * CFrame.Angles(0, math.rad(-50), 0), 0.2), lleg.Weld.C0 = Lerp(lleg.Weld.C0, CFrame.new(0, -1.2, -0.5) * CFrame.Angles(math.rad(10), math.rad(30), math.rad(-20)), 0.2), rleg.Weld.C0 = Lerp(rleg.Weld.C0, CFrame.new(0, -1.2, -0.5) * CFrame.Angles(math.rad(0), math.rad(-15), math.rad(20)), 0.2), cor.Weld.C1 = Lerp(cor.Weld.C1, CFrame.new(0, 0, 0) * CFrame.Angles(0, 0, 0), 0.3), rarm.Weld.C0 = Lerp(rarm.Weld.C0, CFrame.new(1.5,-0.62+0.1*math.cos(sine/14),0)*CFrame.Angles(math.rad(-16),math.rad(-12),math.rad(10+2*math.cos(sine/14))), 0.4), larm.Weld.C0 = Lerp(larm.Weld.C0, CFrame.new(-1.5,-0.62+0.1*math.cos(sine/14),0)*CFrame.Angles(math.rad(-16),math.rad(12),math.rad(-10-2*math.cos(sine/14))), 0.4), hed.Weld.C0 = Lerp(hed.Weld.C0, CFrame.new(0,6.8,-.2)*CFrame.Angles(math.rad(-14+1*math.cos(sine/14)),math.rad(0),0), 0.2), torso.Weld.C0 = Lerp(torso.Weld.C0, CFrame.new(0, -1-0.4*math.cos(sine/14), 0) * CFrame.Angles(0, math.rad(0), math.rad(0)), 0.05), lleg.Weld.C0 = Lerp(lleg.Weld.C0, CFrame.new(-0.1, -1, 0) * CFrame.Angles(0, 0, math.rad(-8-2*math.cos(sine/14))), 0.4), rleg.Weld.C0 = Lerp(rleg.Weld.C0, CFrame.new(0.1, -1, 0) * CFrame.Angles(0, 0, math.rad(8+2*math.cos(sine/14))), 0.4), rarm.Weld.C0 = Lerp(rarm.Weld.C0, CFrame.new(3,-2.2+0.1*math.cos(sine/14),0)*CFrame.Angles(math.rad(0),math.rad(0),math.rad(40+2*math.cos(sine/14))), 0.2), larm.Weld.C0 = Lerp(larm.Weld.C0, CFrame.new(-1.5,-0.65+0.1*math.cos(sine/14),0)*CFrame.Angles(math.rad(-20),math.rad(0),math.rad(-20-2*math.cos(sine/14))), 0.2), hed.Weld.C0 = Lerp(hed.Weld.C0, CFrame.new(0,6.8,-.2)*CFrame.Angles(math.rad(-14+1*math.cos(sine/14)),math.rad(50),0), 0.2), rarm.Weld.C0 = Lerp(rarm.Weld.C0, CFrame.new(1.5,-0.65+0.1*math.cos(sine/14),0)*CFrame.Angles(math.rad(0),math.rad(0),math.rad(20+2*math.cos(sine/14))), 0.2), larm.Weld.C0 = Lerp(larm.Weld.C0, CFrame.new(-1.5,-0.65+0.1*math.cos(sine/14),0)*CFrame.Angles(math.rad(0),math.rad(0),math.rad(-20-2*math.cos(sine/14))), 0.2), hed.Weld.C0 = Lerp(hed.Weld.C0, CFrame.new(0,6.8,-.2)*CFrame.Angles(math.rad(-20+1*math.cos(sine/14)),math.rad(0),0), 0.2), torso.Weld.C0 = Lerp(torso.Weld.C0, CFrame.new(0, -1, 0) * CFrame.Angles(0, math.rad(0), 0), 0.2), lleg.Weld.C0 = Lerp(lleg.Weld.C0, CFrame.new(-0.1, -1, 0) * CFrame.Angles(math.rad(0), math.rad(0), math.rad(-10)), 0.2), rleg.Weld.C0 = Lerp(rleg.Weld.C0, CFrame.new(0.1, -1, 0) * CFrame.Angles(math.rad(0), math.rad(0), math.rad(10)), 0.2), rarm.Weld.C0 = Lerp(rarm.Weld.C0, CFrame.new(3,-2.2, 0)*CFrame.Angles(math.rad(-20), math.rad(-20),math.rad(40)), 0.2), larm.Weld.C0 = Lerp(larm.Weld.C0, CFrame.new(-1.5,0, -math.sin(sine/8)/2.8)*CFrame.Angles(math.sin(sine/8)/4, -math.sin(sine/8)/2, math.rad(-10)), 0.2), hed.Weld.C0 = Lerp(hed.Weld.C0, CFrame.new(0,6.8,0)*CFrame.Angles(math.rad(-8+2*math.cos(sine/4)), math.rad(0), math.rad(0)),0.2), torso.Weld.C0 = Lerp(torso.Weld.C0, CFrame.new(0, -1+0.1*math.cos(sine/4), 0) * CFrame.Angles(math.rad(-4+2*math.cos(sine/4)), 0, math.rad(0)), 0.2), lleg.Weld.C0 = Lerp(lleg.Weld.C0, CFrame.new(-0.5, -1-0.14*math.cos(sine/8)/2.8, -0.05 + math.sin(sine/8)/3.4) * CFrame.Angles(math.rad(-10) + -math.sin(sine/8)/2.3, 0, 0), .4), rleg.Weld.C0 = Lerp(rleg.Weld.C0, CFrame.new(0.5, -1+0.14*math.cos(sine/8)/2.8, -0.05 + -math.sin(sine/8)/3.4) * CFrame.Angles(math.rad(-10) + math.sin(sine/8)/2.3, 0, 0), .4), rarm.Weld.C0 = Lerp(rarm.Weld.C0, CFrame.new(1.5, 0-.05*math.cos(sine/4), math.sin(sine/8)/4) * CFrame.Angles(-math.sin(sine/8)/2.8, -math.sin(sine/8)/3, math.rad(10+2*math.cos(sine/4))), 0.2), larm.Weld.C0 = Lerp(larm.Weld.C0, CFrame.new(-1.5, 0+.05*math.cos(sine/4), -math.sin(sine/8)/4)*CFrame.Angles(math.sin(sine/8)/2.8, -math.sin(sine/8)/3, math.rad(-10-2*math.cos(sine/4))), 0.2), torso.Weld.C0 = Lerp(torso.Weld.C0, CFrame.new(0, -1+0.07*math.cos(sine/4), 0) * CFrame.Angles(math.rad(-4+1*math.cos(sine/4)), 0, math.rad(0)), 0.2), lleg.Weld.C0 = Lerp(lleg.Weld.C0, CFrame.new(-0.1, -1-0.14*math.cos(sine/8)/2.8, -0.05 + math.sin(sine/8)/3.4) * CFrame.Angles(math.rad(-10) + -math.sin(sine/8)/2.3, 0, 0), .4), rleg.Weld.C0 = Lerp(rleg.Weld.C0, CFrame.new(0.1, -1+0.14*math.cos(sine/8)/2.8, -0.05 + -math.sin(sine/8)/3.4) * CFrame.Angles(math.rad(-10) + math.sin(sine/8)/2.3, 0, 0), .4), rarm.Weld.C0 = Lerp(rarm.Weld.C0, CFrame.new(1.5,-0.62+0.1*math.cos(sine/14),0)*CFrame.Angles(math.rad(-16),math.rad(-12),math.rad(10+2*math.cos(sine/14))), 0.2), larm.Weld.C0 = Lerp(larm.Weld.C0, CFrame.new(-1.5,-0.62+0.1*math.cos(sine/14),0)*CFrame.Angles(math.rad(-16),math.rad(12),math.rad(-10-2*math.cos(sine/14))), 0.2), hed.Weld.C0 = Lerp(hed.Weld.C0, CFrame.new(0, 6.8, -.2) * CFrame.Angles(math.rad(-14-4*math.cos(sine/14)),0,0), 0.4), lleg.Weld.C0 = Lerp(lleg.Weld.C0, CFrame.new(-0.1, -1, 0) * CFrame.Angles(math.rad(0-8*math.cos(sine/14)), 0, math.rad(-8)), 0.4), rleg.Weld.C0 = Lerp(rleg.Weld.C0, CFrame.new(0.1, -1, 0) * CFrame.Angles(math.rad(1-9*math.cos(sine/13)), 0, math.rad(8)), 0.4), torso.Weld.C0 = Lerp(torso.Weld.C0, CFrame.new(0, -1-0.2*math.cos(sine/14), 0) * CFrame.Angles(math.rad(-10),0, math.rad(0)), 0.05), hed.Weld.C0 = Lerp(hed.Weld.C0, CFrame.new(0, 6.8, 0) * CFrame.Angles (math.rad(44), math.rad (0), math.rad(0)), 0.15), torso.Weld.C0 = Lerp(torso.Weld.C0, CFrame.new(0, 1-0.1*math.cos(sine/14), -1) * CFrame.Angles(math.rad(- 80), math.rad(0), 0), 0.15), larm.Weld.C0 = Lerp(larm.Weld.C0, CFrame.new(-4, -0.5, 0) * CFrame.Angles(math.rad (0), math.rad(50), math.rad(-40)), 0.15), rarm.Weld.C0 = Lerp(rarm.Weld.C0, CFrame.new(4, -0.5, 0) * CFrame.Angles(math.rad(0), math.rad(-50), math.rad(40)), 0.15), lleg.Weld.C0 = Lerp(lleg.Weld.C0, CFrame.new(-0.1, -1, 0) * CFrame.Angles(math.rad(8), math.rad(0), math.rad(- 10)), .15), rleg.Weld.C0 = Lerp(rleg.Weld.C0, CFrame.new(0.1, -1, 0) * CFrame.Angles(math.rad(8), math.rad(0), math.rad(10)), .15), hed.Weld.C0 = CFrame.new(0,6.8,0)*CFrame.Angles(math.rad(-14-4*math.cos(sine/14)),0,0), lleg.Weld.C0 = Lerp(lleg.Weld.C0, CFrame.new(-0.1, -1, 0) * CFrame.Angles(math.rad(-10-12*math.cos(sine/16)), 0, math.rad(-8)), 0.4), rleg.Weld.C0 = Lerp(rleg.Weld.C0, CFrame.new(0.1, -1, 0) * CFrame.Angles(math.rad(-10-12*math.cos(sine/16)), 0, math.rad(8)), 0.4), torso.Weld.C0 = Lerp(torso.Weld.C0, CFrame.new(0, -1-0.4*math.cos(sine/14), -.2) * CFrame.Angles(math.rad(-15),0, math.rad(0)), 0.05), function Lightning(Part0,Part1,Times,Offset,Color,Thickness,Trans) -- Lightning module, Times = number (Amount of lightning parts), li.Size = Vector3.new(Thickness,Thickness,magz/Times), local Offzet = Vector3.new(trz[math.random(1,2)],trz[math.random(1,2)],trz[math.random(1,2)]), local trolpos = CFrame.new(curpos,Part1)*CFrame.new(0,0,magz/Times).p+Offzet, li.Size = Vector3.new(Thickness,Thickness,magz2), li.CFrame = CFrame.new(curpos,Part1)*CFrame.new(0,0,-magz2/2), li.CFrame = CFrame.new(curpos,trolpos)*CFrame.new(0,0,magz/Times/2), curpos = li.CFrame*CFrame.new(0,0,magz/Times/2).p, BodyParts = {} -- Parts to emit lightning effects from, Bounding = {} -- Calculate the bounding boxes, while wait(0) do -- Emit the Lightning effects randomly, local Body1 = BodyParts[math.random(#BodyParts)], local Body2 = BodyParts[math.random(#BodyParts)]. 510 nova llc fort worth tx phone number,
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