dank memer hack script

Please ensure your settings are adjusted accordingly. How can I drop 15 V down to 3.7 V to drive a motor? Showing English results only. --[[ A script By makhail07. A macro script to automatically grind Dank Memer written in Python. VelocityInheritance = VelocityInheritance, part.TopSurface, part.BottomSurface, part.LeftSurface, part.RightSurface, part.FrontSurface, part.BackSurface = 10, 10, 10, 10, 10, 10, function CreatePart(FormFactor, Parent, Material, Reflectance, Transparency, BColor, Name, Size), function CreateMesh(Mesh, Part, MeshType, MeshId, OffSet, Scale), function CreateWeld(Parent, Part0, Part1, C0, C1), EffectModel = Instance.new("Model", char), Create = function(brickcolor, cframe, x1, y1, z1, x3, y3, z3, delay, Type), local prt = CFuncs.Part.Create(EffectModel, "SmoothPlastic", 0, 0, brickcolor, "Effect", Vector3.new()), local msh = CFuncs.Mesh.Create("BlockMesh", prt, "", "", Vector3.new(0, 0, 0), Vector3.new(x1, y1, z1)), game:GetService("Debris"):AddItem(prt, 10), Create = function(brickcolor, cframe, x1, y1, z1, x3, y3, z3, delay), local prt = CFuncs.Part.Create(EffectModel, "Neon", 0, 0, brickcolor, "Effect", Vector3.new()), local msh = CFuncs.Mesh.Create("SpecialMesh", prt, "Sphere", "", Vector3.new(0, 0, 0), Vector3.new(x1, y1, z1)), local msh = CFuncs.Mesh.Create("CylinderMesh", prt, "", "", Vector3.new(0, 0, 0), Vector3.new(x1, y1, z1)), local msh = CFuncs.Mesh.Create("SpecialMesh", prt, "FileMesh", "rbxassetid://431164262", Vector3.new(0, 0, 0), Vector3.new(x1 / 60, y1 / 60, z1 / 60)), local msh = CFuncs.Mesh.Create("SpecialMesh", prt, "FileMesh", "rbxassetid://3270017", Vector3.new(0, 0, 0), Vector3.new(x1, y1, z1)), Create = function(brickcolor, cframe, x1, y1, z1), local prt = CFuncs.Part.Create(EffectModel, "Neon", 0, 0, brickcolor, "Effect", Vector3.new(0.5, 0.5, 0.5)), prt.CFrame = cframe * CFrame.fromEulerAnglesXYZ(math.random(-50, 50), math.random(-50, 50), math.random(-50, 50)), function BlockEffect(brickcolor, cframe, x1, y1, z1, x3, y3, z3, delay, Type), local prt = CreatePart(3, workspace, "SmoothPlastic", 0, 0, brickcolor, "Effect", Vector3.new()), local msh = CreateMesh("BlockMesh", prt, "", "", Vector3.new(0, 0, 0), Vector3.new(x1, y1, z1)), function SphereEffect(brickcolor, cframe, x1, y1, z1, x3, y3, z3, delay), local msh = CreateMesh("SpecialMesh", prt, "Sphere", "nil", Vector3.new(0, 0, 0), Vector3.new(x1, y1, z1)), function RingEffect(brickcolor, cframe, x1, y1, z1, x3, y3, z3, delay), local prt = CreatePart(3, workspace, "SmoothPlastic", 0, 0, brickcolor, "Effect", Vector3.new(0.5, 0.5, 0.5)), prt.CFrame = cframe * CFrame.new(x1, y1, z1), local msh = CreateMesh("SpecialMesh", prt, "FileMesh", "264766957", Vector3.new(0, 0, 0), Vector3.new(x1, y1, z1)), function CylinderEffect(brickcolor, cframe, x1, y1, z1, x3, y3, z3, delay), local msh = CreateMesh("CylinderMesh", prt, "", "", Vector3.new(0, 0, 0), Vector3.new(x1, y1, z1)), function WaveEffect(brickcolor, cframe, x1, y1, z1, x3, y3, z3, delay), local prt = CreatePart(3, workspace, "Neon", 0, 0, brickcolor, "Effect", Vector3.new()), function SpecialEffect(brickcolor, cframe, x1, y1, z1, x3, y3, z3, delay), local msh = CreateMesh("SpecialMesh", prt, "FileMesh", "24388358", Vector3.new(0, 0, 0), Vector3.new(x1, y1, z1)), function BreakEffect(brickcolor, cframe, x1, y1, z1), local prt = CreatePart(3, workspace, "Neon", 0, 0, brickcolor, "Effect", Vector3.new(0.5, 0.5, 0.5)), function CreateSound(ID, PARENT, VOLUME, PITCH), NEWSOUND.SoundId = "http://www.roblox.com/asset/?id="..ID, game:GetService("Debris"):AddItem(NEWSOUND, 10), rootj.C0=clerp(rootj.C0,RootCF*cf(0,0,-0.1+0.1*math.cos(sine/20))*angles(math.rad(5),math.rad(0),math.rad(0)),0.15), tors.Neck.C0=clerp(tors.Neck.C0,necko*angles(math.rad(0),math.rad(0),math.rad(0)),.3), RH.C0=clerp(RH.C0,cf(1,-.9-0.1*math.cos(sine/20),.025*math.cos(sine/20))*RHCF*angles(math.rad(-5),math.rad(0),math.rad(0)),0.15), LH.C0=clerp(LH.C0,cf(-1,-.9-0.1*math.cos(sine/20),.025*math.cos(sine/20))*LHCF*angles(math.rad(-5),math.rad(-0),math.rad(0)),0.15), RW.C0 = clerp(RW.C0, CFrame.new(1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(90), math.rad(0), math.rad(3)), 0.1), LW.C0 = clerp(LW.C0, CFrame.new(-1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(0), math.rad(-0), math.rad(-3)), 0.1), rootj.C0=clerp(rootj.C0,RootCF*cf(0,0,-0.1+0.1*math.cos(sine/20))*angles(math.rad(0),math.rad(0),math.rad(0)),0.15), RW.C0 = clerp(RW.C0, CFrame.new(1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(130), math.rad(0), math.rad(3)), 0.1), tors.Neck.C0=clerp(tors.Neck.C0,necko*angles(math.rad(0),math.rad(15),math.rad(0)),.3), RW.C0 = clerp(RW.C0, CFrame.new(1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(0), math.rad(0), math.rad(150)), 0.1), LW.C0 = clerp(LW.C0, CFrame.new(-1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(0), math.rad(-0), math.rad(-150)), 0.1), rootj.C0=clerp(rootj.C0,RootCF*cf(0,0,-0.1+0.1*math.cos(sine/20))*angles(math.rad(-6),math.rad(0),math.rad(0)),0.15), tors.Neck.C0=clerp(tors.Neck.C0,necko*angles(math.rad(-5),math.rad(0),math.rad(0)),.3), RH.C0=clerp(RH.C0,cf(1,-.9-0.1*math.cos(sine/20),.025*math.cos(sine/20))*RHCF*angles(math.rad(-5),math.rad(0),math.rad(3)),0.15), LH.C0=clerp(LH.C0,cf(-1,-.9-0.1*math.cos(sine/20),.025*math.cos(sine/20))*LHCF*angles(math.rad(-5),math.rad(-0),math.rad(-3)),0.15), RW.C0 = clerp(RW.C0, CFrame.new(1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(-120), math.rad(0), math.rad(115)), 0.1), LW.C0 = clerp(LW.C0, CFrame.new(-1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(-120), math.rad(-0), math.rad(-115)), 0.1), RW.C0 = clerp(RW.C0, CFrame.new(1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(-160), math.rad(0), math.rad(120)), 0.1), LW.C0 = clerp(LW.C0, CFrame.new(-1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(90), math.rad(-0), math.rad(-20)), 0.1), RW.C0 = clerp(RW.C0, CFrame.new(1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(-0), math.rad(0), math.rad(165)), 0.1), LW.C0 = clerp(LW.C0, CFrame.new(-1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(-0), math.rad(-0), math.rad(-165)), 0.1), rootj.C0=clerp(rootj.C0,RootCF*cf(0,0,-0.1+0.1*math.cos(sine/20))*angles(math.rad(-5),math.rad(0),math.rad(0)),0.15), RW.C0 = clerp(RW.C0, CFrame.new(1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(-0), math.rad(0), math.rad(0)), 0.1), LW.C0 = clerp(LW.C0, CFrame.new(-1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(-0), math.rad(-0), math.rad(-0)), 0.1), rootj.C0=clerp(rootj.C0,RootCF*cf(0,0,-0.1+0.1*math.cos(sine/20))*angles(math.rad(0),math.rad(360*i),math.rad(0)),0.15), RW.C0 = clerp(RW.C0, CFrame.new(1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(-0), math.rad(0), math.rad(90)), 0.1), LW.C0 = clerp(LW.C0, CFrame.new(-1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(-0), math.rad(-0), math.rad(-90)), 0.1), RH.C0=clerp(RH.C0,cf(1,-.9-0.1*math.cos(sine/20),-.2)*RHCF*angles(math.rad(-5),math.rad(0),math.rad(3)),0.15), RW.C0 = clerp(RW.C0, CFrame.new(1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(-0), math.rad(0), math.rad(130)), 0.1), LW.C0 = clerp(LW.C0, CFrame.new(-1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(-0), math.rad(-0), math.rad(-130)), 0.1), rootj.C0=clerp(rootj.C0,RootCF*cf(0,0,-0.1+0.1*math.cos(sine/20))*angles(math.rad(0),math.rad(-10),math.rad(0)),0.15), tors.Neck.C0=clerp(tors.Neck.C0,necko*angles(math.rad(25),math.rad(0),math.rad(0)),.3), LH.C0=clerp(LH.C0,cf(-1,-.9-0.1*math.cos(sine/20),.025*math.cos(sine/20))*LHCF*angles(math.rad(-5),math.rad(-0),math.rad(-0)),0.15), RW.C0 = clerp(RW.C0, CFrame.new(1.3, 0.5+0.1*math.sin(sine/30), -0.6) * angles(math.rad(-0), math.rad(0), math.rad(-110)), 0.1), LW.C0 = clerp(LW.C0, CFrame.new(-1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(-0), math.rad(-0), math.rad(-100)), 0.1), rootj.C0=clerp(rootj.C0,RootCF*cf(0,math.random(-10, 10) / 100,-0.1+0.1*math.cos(sine/2))*angles(math.rad(20*math.cos(sine/2)),math.rad(20*math.cos(sine/2)),math.rad(20*math.cos(sine/2))),0.15), RW.C0 = clerp(RW.C0, CFrame.new(1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(-0), math.rad(0), math.rad(-180*math.cos(sine/2))), 0.1), LW.C0 = clerp(LW.C0, CFrame.new(-1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(-0), math.rad(-0), math.rad(-180*math.cos(sine/2))), 0.1), RW.C0 = clerp(RW.C0, CFrame.new(1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(90), math.rad(0), math.rad(20)), 0.1), RW.C0 = clerp(RW.C0, CFrame.new(1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(125), math.rad(0), math.rad(20)), 0.1), LW.C0 = clerp(LW.C0, CFrame.new(-1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(125), math.rad(-0), math.rad(-20)), 0.1), Effects.Sphere.Create(maincolor, la.CFrame * CFrame.new(0, -2.2, 0), 100, 100, 100, 3, 3, 3, .1, .1), Effects.Sphere.Create(maincolor, ra.CFrame * CFrame.new(0, -2.2, 0), 100, 100, 100, 3, 3, 3, .1, .1), local Blobby = Instance.new("Part", char), Blobby.BrickColor = BrickColor.new("Really black"), Blobby.TopSurface = Enum.SurfaceType.Smooth, Blobby.BottomSurface = Enum.SurfaceType.Smooth, local Weld = Instance.new("Weld", Blobby), Weld.C0 = CFrame.Angles(math.rad(-90),0,0), M2.MeshId = "http://www.roblox.com/asset/?id=10470609", M2.TextureId = "http://www.roblox.com/asset/?id=1450388425", rootj.C0=clerp(rootj.C0,RootCF*cf(0,0,-0.1+0.1*math.cos(sine/20))*angles(math.rad(0),math.rad(-0),math.rad(0)),0.15), RW.C0 = clerp(RW.C0, CFrame.new(1.5, 0.5+0.1*math.sin(sine/30), -0.6) * angles(math.rad(90), math.rad(0), math.rad(-0)), 0.1), tors.Neck.C0=clerp(tors.Neck.C0,necko*angles(math.rad(-10),math.rad(0),math.rad(0)),.3), RW.C0 = clerp(RW.C0, CFrame.new(1.35, 0.7+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(115), math.rad(0), math.rad(-55)), 0.1), Cary.BrickColor = BrickColor.new("Really black"), Cary.TopSurface = Enum.SurfaceType.Smooth, Cary.BottomSurface = Enum.SurfaceType.Smooth, Weld.C0 = CFrame.Angles(math.rad(0),math.rad(0),0), M2.MeshId = "http://www.roblox.com/asset/?id=591853691", M2.TextureId = "http://www.roblox.com/asset/?id=591854066", RW.C0 = clerp(RW.C0, CFrame.new(1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(120), math.rad(0), math.rad(-0)), 0.1), LW.C0 = clerp(LW.C0, CFrame.new(-1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(120), math.rad(-0), math.rad(-0)), 0.1), RW.C0 = clerp(RW.C0, CFrame.new(1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(90), math.rad(0), math.rad(-0)), 0.1), LW.C0 = clerp(LW.C0, CFrame.new(-1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(90), math.rad(-0), math.rad(-0)), 0.1), Weld.C0 = CFrame.Angles(math.rad(90),math.rad(0),0), tors.Neck.C0=clerp(tors.Neck.C0,necko*angles(math.rad(-25),math.rad(0),math.rad(0)),.3), RW.C0 = clerp(RW.C0, CFrame.new(1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(0), math.rad(0), math.rad(-180)), 0.1), LW.C0 = clerp(LW.C0, CFrame.new(-1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(0), math.rad(-0), math.rad(180)), 0.1), for _,v in pairs (hit.Parent:children()) do, if v:IsA("Humanoid") and v.Parent ~= char then, RW.C0 = clerp(RW.C0, CFrame.new(1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(0), math.rad(0), math.rad(180)), 0.1), function dasheffect(position, size, grow), dash.Size = Vector3.new(size, size, size), dash.BrickColor = BrickColor.new("White"), dash.Size = dash.Size + Vector3.new(grow, grow, grow), dash.Transparency = dash.Transparency + grow / 1.5, dasheffect(char.HumanoidRootPart.Position - Vector3.new(0, 2, 0), 0.1, 0.25), local torvel=(root.Velocity*Vector3.new(1,0,1)).magnitude, hitfloor,posfloor=rayCast(root.Position,(CFrame.new(root.Position,root.Position - Vector3.new(0,1,0))).lookVector,4,char), if equipped==true or equipped==false then, if root.Velocity.y > 1 and hitfloor==nil then, rootj.C0 = clerp(rootj.C0,RootCF*cf(0,0,-0.1+0.1*math.cos(sine/20))* angles(math.rad(10),math.rad(0),math.rad(0)),.3), tors.Neck.C0 = clerp(tors.Neck.C0,necko *angles(math.rad(-10),math.rad(0),math.rad(0)),.3), RW.C0 = clerp(RW.C0, CFrame.new(1.5, 0.5, 0) * angles(math.rad(30), math.rad(0), math.rad(20)), 0.3), LW.C0 = clerp(LW.C0, CFrame.new(-1.5, 0.5, 0) * angles(math.rad(-20), math.rad(0), math.rad(-30)), 0.3), LH.C0=clerp(LH.C0,cf(-1,-.9-0.1*math.cos(sine/20),-0.3)*LHCF*angles(math.rad(-5),math.rad(-0),math.rad(20)),0.15), RH.C0=clerp(RH.C0,cf(1,-1,0.3)*angles(math.rad(0),math.rad(90),math.rad(-20)),.3), elseif root.Velocity.y < -1 and hitfloor==nil then, rootj.C0 = clerp(rootj.C0,RootCF*cf(0,0,-0.1+0.1*math.cos(sine/20))* angles(math.rad(-5),math.rad(0),math.rad(0)),.3), RW.C0 = clerp(RW.C0, CFrame.new(1.5, 0.5, 0) * angles(math.rad(30), math.rad(0), math.rad(50)), 0.3), LW.C0 = clerp(LW.C0, CFrame.new(-1.5, 0.5, 0) * angles(math.rad(-30), math.rad(0), math.rad(-50)), 0.3), LH.C0=clerp(LH.C0,cf(-1,-.4-0.1*math.cos(sine/20),-.6)*LHCF*angles(math.rad(-5),math.rad(-0),math.rad(20)),0.15), RH.C0=clerp(RH.C0,cf(1,-.3-0.1*math.cos(sine/20),-.6)*angles(math.rad(0),math.rad(90),math.rad(-20)),.3), RW.C0 = clerp(RW.C0, CFrame.new(1.5, 0.5+0.1*math.sin(sine/30), 0.055*math.cos(sine/20)) * angles(math.rad(0), math.rad(0), math.rad(3)), 0.1), elseif (tors.Velocity).magnitude < 50 and hitfloor ~= nil then, rootj.C0=clerp(rootj.C0,RootCF*cf(0,0,-0.175+0.025*math.cos(sine/3.5)+ -math.sin(sine/3.5)/7)*angles(math.rad(3-2.5*math.cos(sine/3.5)),math.rad(0)+root.RotVelocity.Y/30,math.rad(17*math.cos(sine/7))+root.RotVelocity.Y/30),0.15), RH.C0=clerp(RH.C0,cf(1,-0.9-0.5*math.cos(sine/7)/2,0.055*math.cos(sine/7)/2)*angles(math.rad(0)+ -math.sin(sine/8)/1.5,math.rad(90-0.1*math.cos(sine/7)),math.rad(0)),0.15), LH.C0=clerp(LH.C0,cf(-1,-0.9+0.5*math.cos(sine/7)/2,-0.055*math.cos(sine/7)/2)*angles(math.rad(0)+ math.sin(sine/8)/1.5,math.rad(-90-0.1*math.cos(sine/7)),math.rad(0)),0.15), RW.C0 = clerp(RW.C0, CFrame.new(1.5, 0.5+0.04*math.sin(sine/25), 0) * angles(math.rad(120 )* math.cos(sine / 7), math.rad(-7*math.sin(sine/25)), math.rad(5)), 0.1), LW.C0 = clerp(LW.C0, CFrame.new(-1.5, 0.5+0.04*math.sin(sine/25),0) * angles(math.rad(-125 )* math.cos(sine / 7), math.rad(7*math.sin(sine/25)), math.rad(-5)), 0.1), Thing[1].CFrame = Thing[1].CFrame * CFrame.fromEulerAnglesXYZ(math.random(-50, 50), math.random(-50, 50), math.random(-50, 50)), Mesh.Scale = Mesh.Scale + Vector3.new(Thing[4], Thing[5], Thing[6]), Thing[1].Transparency = Thing[1].Transparency + Thing[3], Thing[1].CFrame = Thing[1].CFrame + Vector3.new(0, 0, 0), Thing[1].CFrame = Thing[1].CFrame * CFrame.fromEulerAnglesXYZ(math.random(-50, 50), math.random(-50, 50), math.random(-50, 50)) + Vector3.new(0, 0.15, 0), Thing[1].CFrame = Thing[1].CFrame * Vector3.new(0, 0.5, 0), Mesh.Scale = Mesh.Scale + Vector3.new(Thing[7], Thing[8], Thing[9]), Thing[4] = Thing[4] * CFrame.new(0, Thing[7], 0), Thing[1].CFrame = Thing[4] * CFrame.fromEulerAnglesXYZ(Thing[6], 0, 0), Lua |

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