Es1 tt use DocumentTools in
# Enter Maple commands to be executed when the specified
# action is carried out on the component.
# Use:
# Do( %component_name );
# and
# Do( %component_name = value );
# to set and get properties of the component.
# You can also use arbitrary expressions
# involving components, e.g.:
# Do( %target = %input1 + 2*%input2 );
# Note the %-prefix to each component name.
# See ?CustomizingComponents for more information.
Use:
Do(%XP1 =%XP);
Do(%YP1 = %YP);
Do(%VX1 =%VX);
Do(%VY1 = %VY);
Do(%M = %VY / %VX);
Do(%Q =%YP - (%VY*%XP/%VX ))
end use;
x Es2use DocumentTools in
# Enter Maple commands to be executed when the specified
# action is carried out on the component.
# Use:
# Do( %component_name );
# and
# Do( %component_name = value );
# to set and get properties of the component.
# You can also use arbitrary expressions
# involving components, e.g.:
# Do( %target = %input1 + 2*%input2 );
# Note the %-prefix to each component name.
# See ?CustomizingComponents for more information.
Use:
Do( %YA1 =-1*%A/%B*%XA1-1*%C/%B);
Do(%YB1 =-1*%A/%B*%XB1-1*%C/%B);
Do(%XA2 = %XA1);
Do(%YA2 = %YA1);
Do( %VX2 = %XB1 -%XA1);
Do(%VY2 = %YB1 - %YA1);
end use;
ttEs 3 use DocumentTools in
# Enter Maple commands to be executed when the specified
# action is carried out on the component.
# Use:
# Do( %component_name );
# and
# Do( %component_name = value );
# to set and get properties of the component.
# You can also use arbitrary expressions
# involving components, e.g.:
# Do( %target = %input1 + 2*%input2 );
# Note the %-prefix to each component name.
# See ?CustomizingComponents for more information.
Use:
Do( %XYC = solve({%A1*x+%B1*y+%C1=0,%A2*x+%B2*y+%C2=0},{x,y}));
end use;
) XC YC LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYjLUkjbWlHRiQ2I1EhRic=mr1 mr2 use DocumentTools in
# Enter Maple commands to be executed when the specified
# action is carried out on the component.
# Use:
# Do( %component_name );
# and
# Do( %component_name = value );
# to set and get properties of the component.
# You can also use arbitrary expressions
# involving components, e.g.:
# Do( %target = %input1 + 2*%input2 );
# Note the %-prefix to each component name.
# See ?CustomizingComponents for more information.
Use:
Do( %mr1= -1*%A1/%B1);
Do( %mr2 =-1*%A2/%B2);
Do( %MR1 = -1/%mr1);
Do( %MR2 = -1/%mr2);
Do( %QR1 = 1/%mr1* %XC + %YC);
Do( %QR2 = 1/%mr2* %XC + %YC);
end use;
retta \342\212\245 r1 y = x retta \342\212\245 r2 y = x Es 4 F1 r1 x y =0 r2 x y=0F2 r3 x y =0 r4 x y=0use DocumentTools in
# Enter Maple commands to be executed when the specified
# action is carried out on the component.
# Use:
# Do( %component_name );
# and
# Do( %component_name = value );
# to set and get properties of the component.
# You can also use arbitrary expressions
# involving components, e.g.:
# Do( %target = %input1 + 2*%input2 );
# Note the %-prefix to each component name.
# See ?CustomizingComponents for more information.
Use:
Do( %XYCF1 = solve({%AR1*x + %BR1*y + %CR1 =0 , %AR2*x + %BR2*y +%CR2 =0} , {x,y}));
end use;
XCF1 YCF1 use DocumentTools in
# Enter Maple commands to be executed when the specified
# action is carried out on the component.
# Use:
# Do( %component_name );
# and
# Do( %component_name = value );
# to set and get properties of the component.
# You can also use arbitrary expressions
# involving components, e.g.:
# Do( %target = %input1 + 2*%input2 );
# Note the %-prefix to each component name.
# See ?CustomizingComponents for more information.
Use:
Do( %XYCF2 = solve({%AR3*x + %BR3*y + %CR3 =0 , %AR4*x + %BR4*y +%CR4 =0} , {x,y}));
end use;
XCF2 YCF2 use DocumentTools in
# Enter Maple commands to be executed when the specified
# action is carried out on the component.
# Use:
# Do( %component_name );
# and
# Do( %component_name = value );
# to set and get properties of the component.
# You can also use arbitrary expressions
# involving components, e.g.:
# Do( %target = %input1 + 2*%input2 );
# Note the %-prefix to each component name.
# See ?CustomizingComponents for more information.
Use:
Do( %mf12 = (%YCF1- %YCF2)/(%XCF1 - %XCF2));
Do( %qf12 = -1*%mf12*%XCF1 + %YCF1);
end use;
y= x LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYjLUkjbWlHRiQ2I1EhRic=