zimmersandro/cds-404
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

feat: serie_1.py abschluss

Browse Source
This commit is contained in:
git-sandro 2026-02-25 23:33:07 +01:00
parent 88f29d1f52
commit b1d6f6c522
1 changed files with 250 additions and 0 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

250
introduction/serie_1.py
View File

@ -105,4 +105,254 @@ plt.xlabel(r"$x$")
plt.ylabel(r"$y$") plt.ylabel(r"$y$")
plt.legend() plt.legend()
plt.grid(visible=True) plt.grid(visible=True)
plt.axis("image")
# %%
print("Aufgabe 8. d)")
# Python konfigurieren
plt.close("all")
plt.rcParams["figure.figsize"] = (7.03,15)
plt.rcParams["font.size"] = 9
plt.rcParams["font.family"] = "serif"
plt.rcParams["text.usetex"] = False
# Parameter
x_0 = 0
x_E = 4
N = 201
lw = 3
fig = 1
# Funktionen
def f(x):
y = 3/(1+x)
return y
def g(x):
y = x/2
return y
def h(x):
y = x**2/8
return y
# Daten
x_data = np.linspace(x_0, x_E, N)
f_data = f(x_data)
g_data = g(x_data)
h_data = h(x_data)
# pltot
fh = plt.figure(fig)
plt.plot(x_data, f_data, linewidth = lw, label = r"$f$")
plt.plot(x_data, g_data, "--", linewidth = lw, label = r"$g$")
plt.plot(x_data, h_data, "-.", linewidth = lw, label = r"$h$")
plt.xlabel(r"$x$")
plt.ylabel(r"$y$")
plt.legend()
plt.grid(visible=True)
plt.axis("image")
# %%
print("Aufgabe 9. a)")
# Python konfigurieren
plt.close("all")
plt.rcParams["figure.figsize"] = (7.03,15)
plt.rcParams["font.size"] = 9
plt.rcParams["font.family"] = "serif"
plt.rcParams["text.usetex"] = False
# Parameter
x_0 = 0
x_E = 2
N = 201
lw = 3
fig = 1
# Funktionen
def f(x):
y = 0.4*x+1
return y
# Daten
x_data = np.linspace(x_0, x_E, N)
f_data = f(x_data)
# pltot
fh = plt.figure(fig)
plt.plot(x_data, f_data, linewidth = lw)
plt.xlabel(r"$x$")
plt.ylabel(r"$y$")
plt.grid(visible=True)
plt.axis("image")
# %%
print("Aufgabe 9. b)")
# Python konfigurieren
plt.close("all")
plt.rcParams["figure.figsize"] = (7.03,15)
plt.rcParams["font.size"] = 9
plt.rcParams["font.family"] = "serif"
plt.rcParams["text.usetex"] = False
# Parameter
x_0 = -2
x_E = 2
N = 201
lw = 3
fig = 1
# Funktionen
def f(x):
y = x**2
return y
# Daten
x_data = np.linspace(x_0, x_E, N)
f_data = f(x_data)
# pltot
fh = plt.figure(fig)
plt.plot(x_data, f_data, linewidth = lw)
plt.xlabel(r"$x$")
plt.ylabel(r"$y$")
plt.grid(visible=True)
plt.axis("image")
# %%
print("Aufgabe 9. c)")
# Python konfigurieren
plt.close("all")
plt.rcParams["figure.figsize"] = (7.03,15)
plt.rcParams["font.size"] = 9
plt.rcParams["font.family"] = "serif"
plt.rcParams["text.usetex"] = False
# Parameter
x_0 = -6
x_E = 2
N = 201
lw = 3
fig = 1
# Funktionen
def f(x):
y = 2**x
return y
# Daten
x_data = np.linspace(x_0, x_E, N)
f_data = f(x_data)
# pltot
fh = plt.figure(fig)
plt.plot(x_data, f_data, linewidth = lw)
plt.xlabel(r"$x$")
plt.ylabel(r"$y$")
plt.grid(visible=True)
plt.axis("image")
# %%
print("Aufgabe 9. d)")
# Python konfigurieren
plt.close("all")
plt.rcParams["figure.figsize"] = (7.03,15)
plt.rcParams["font.size"] = 9
plt.rcParams["font.family"] = "serif"
plt.rcParams["text.usetex"] = False
# Parameter
x_0 = 0.01
x_E = 10
N = 201
lw = 3
fig = 1
# Funktionen
def f(x):
y = np.log10(x)
return y
# Daten
x_data = np.linspace(x_0, x_E, N)
f_data = f(x_data)
# pltot
fh = plt.figure(fig)
plt.plot(x_data, f_data, linewidth = lw)
plt.xlabel(r"$x$")
plt.ylabel(r"$y$")
plt.grid(visible=True)
plt.axis("image")
# %%
print("Aufgabe 9. e)")
# Python konfigurieren
plt.close("all")
plt.rcParams["figure.figsize"] = (7.03,15)
plt.rcParams["font.size"] = 9
plt.rcParams["font.family"] = "serif"
plt.rcParams["text.usetex"] = False
# Parameter
x_0 = -1
x_E = 4
N = 201
lw = 3
fig = 1
# Funktionen
def f(x):
y = 3/(x+2)
return y
# Daten
x_data = np.linspace(x_0, x_E, N)
f_data = f(x_data)
# pltot
fh = plt.figure(fig)
plt.plot(x_data, f_data, linewidth = lw)
plt.xlabel(r"$x$")
plt.ylabel(r"$y$")
plt.grid(visible=True)
plt.axis("image")
# %%
print("Aufgabe 9. f)")
# Python konfigurieren
plt.close("all")
plt.rcParams["figure.figsize"] = (7.03,15)
plt.rcParams["font.size"] = 9
plt.rcParams["font.family"] = "serif"
plt.rcParams["text.usetex"] = False
# Parameter
x_0 = 0
x_E = 4*np.pi
N = 401
N_t = 9
lw = 3
fig = 1
# Funktionen
def f(x):
y = 2*np.sin(x)
return y
# Daten
x_data = np.linspace(x_0, x_E, N)
f_data = f(x_data)
# pltot
fh = plt.figure(fig)
plt.plot(x_data, f_data, linewidth = lw)
plt.xlabel(r"$x$")
plt.ylabel(r"$y$")
plt.xticks(np.linspace(x_0, x_E, N_t),("$0$", "$0.5\,\pi$",
"$1.0\,\pi$", "$1.5\,\pi$",
"$2.0\,\pi$", "$2.5\,\pi$",
"$3.0\,\pi$", "$3.5\,\pi$",
"$4.0\,\pi$"))
plt.grid(visible=True)
plt.axis("image") plt.axis("image")