Anvend Python som CAS (Computational Algebra System) i gymnasiet. Bygger på følgende moduler:
pip install gym-cas
eller
py -m pip install gym-cas
I nedenstående afsnit antages det at gym_cas først importeres således:
from gym_cas import *
expand( udtryk )
factor( udtryk )
solve( udtryk )
solve( [udtryk1, udtryk2] )
nsolve( udtryk, start )
Bemærk at den nemmeste måde at bruge solve i SymPy er ved at omforme sin ligning så en af siderne er lig 0. Hvis man fx vil løse ligningen x/2 = 10 så kan det skrives solve(x/2-10).
Sin( vinkel )
Cos( vinkel )
Tan( vinkel )
aSin( forhold )
aCos( forhold )
aTan( forhold )
plot_list( X_list ,Y_list, is_point=True)
plot( funktion )
plot_implicit( udtryk ,xlim=( x_min, x_max),ylim=( y_min, y_max))
plot_geometry( Geometrisk objekt )
p1 = plot( udtryk1 )
p2 = plot( udtryk2 )
p = p1 + p2
p.show()
a = vector(x,y)
a.dot(b)
plot_vector( vektor )
plot_vector( start, vektor )
plot_vector( [vektor1, vektor2, ...])
max( data )
min( data )
mean( data )
median( data )
var( data, ddof )
std( data, ddof )
kvartiler( data )
percentile( data , procenter )
frekvenstabel( data )
boxplot( data )
plot_sum( data )
group_mean( data, grupper )
group_percentile( data, grupper, procenter )
group_var( data, grupper, ddof )
group_std( data, grupper, ddof )
frekvenstabel( data, grupper )
boxplot( data, grupper )
plot_sum( data, grupper )
plot_hist( data, grupper )
def f(x):
return funktionsudtryk
f(3)
def f(x):
return Piecewise(( funktion1, betingelse1), (funktion2, betingelse2))
plot( funktion , yscale="log")
plot( funktion , (variabel, start, stop), xscale="log", yscale="log")
regression_poly(X,Y, grad)
regression_power(X,Y)
regression_exp(X,Y)
limit( udtryk, variabel, grænse, retning )
diff( funktion )
def df(xi):
return diff( funktion ).subs( variabel, xi )
integrate( udtryk )
integrate( udtryk, ( variabel, start, slut ))
a = vector(1,2,3)
a.cross(b)
plot3d_list( X, Y, is_point=True)
plot_vector( a )
plot3d_line( a + t * r )
plot3d_plane( a + s * r1 + t * r2 )
plot3d_implicit( ligning, backend=PB ) # Kræver Plotly eller K3D
f = Function('f')
dsolve( ode )
plot_ode( ode, (x, start, stop), (f, start, stop))
X = [ udregning for x in range(start,slut)]
X = [ startbetingelse ]
for i in range(start, slut):
X.append( rekursionsligning )
FAQs
CAS tools for danish high schools.
We found that gym-cas demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 1 open source maintainer collaborating on the project.
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