# arrow_back What is Euler's formula for polyhedra?

35 views
What is Euler's formula for polyhedra?

Euler's formula for convex polyhedra is a function of their number of faces $(F)$, edges $(E)$, and vertices $(V)$, stating that $F-E+V=2$.
by Platinum
(119,120 points)

## Related questions

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
State Euler's product formula
State Euler's product formulaState Euler's product formula ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
Where does Euler's formula apply in mathematics? $e^{ix} = \cos{x} + i\sin{x}$
Where does Euler's formula apply in mathematics? $e^{ix} = \cos{x} + i\sin{x}$Where does Euler's formula apply in mathematics? $e^{ix} = \cos{x} + i\sin{x}$ ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
What is so special about Euler's identity $e^{¡\pi}+1=0$
What is so special about Euler's identity $e^{¡\pi}+1=0$What is so special about Euler's identity $e^{¡\pi}+1=0$ ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
Who can interpret Euler's identity $e^{i \pi} + 1 = 0$?
Who can interpret Euler's identity $e^{i \pi} + 1 = 0$?Who can interpret Euler's identity &nbsp;$e^{i \pi} + 1 = 0$? ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
What is Euler's Formula?
What is Euler's Formula?What is Euler's Formula? ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
Solve using the Euler method, modified Euler, Heun, and Runge-Kutta methods using $h=\frac{1}{20}$ and $n=20$. Compare the answers and the errors for each of these methods.
Solve using the Euler method, modified Euler, Heun, and Runge-Kutta methods using $h=\frac{1}{20}$ and $n=20$. Compare the answers and the errors for each of these methods.Solve the differential equation for $\frac{d x}{d t}=f(t, x)=t \cdot x^{2}$ with $x(0)=1$. Solve using Picard iteration for five iterations. Solve usi ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
Why is $e^{i \pi}+1=0$ called the most beautiful equation?
Why is $e^{i \pi}+1=0$ called the most beautiful equation?Why is $e^{i \pi}+1=0$ called the most beautiful equation? ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
Use the simulation program to do 100 simulations with $p=\frac{1}{4}$ and $n=20$. Record the average number of successes in the 100 simulations.
Use the simulation program to do 100 simulations with $p=\frac{1}{4}$ and $n=20$. Record the average number of successes in the 100 simulations.Consider a recurring experiment such that the outcome each time is independent of the previous times that the experiment was performed. Suppose that t ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
Use the Euler method to solve the following differential equation
Use the Euler method to solve the following differential equationUse the Euler method to solve the following differential equation $$\begin{array}{l} \frac{d x}{d t}=x \\ x(0)=1 \end{array}$$ Solve on $0,1$ usin ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
Solve using the Taylor Method of degree $4,5,6$, 7, and $8 .$ Compare these results with Runge-Kutta using the same $h$.
Solve using the Taylor Method of degree $4,5,6$, 7, and $8 .$ Compare these results with Runge-Kutta using the same $h$.Consider the following differential equation. $$\begin{array}{l} \frac{d x}{d t}=t \cdot x \\ x(0)=1 \end{array}$$ Solve on the interval $0,1$ usi ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
Who was the better mathematician between Euler and Gauss?
Who was the better mathematician between Euler and Gauss?Who was the better mathematician between Euler and Gauss? ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
What is the formula for calculating a triangle that is not right-angled?
What is the formula for calculating a triangle that is not right-angled?What is the formula for calculating a triangle that is not right-angled? ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
What is the formula for Magnitude and Angle of Vector $a$?
What is the formula for Magnitude and Angle of Vector $a$?What is the formula for Magnitude and Angle of Vector $a$? ...
close

Notice: Undefined index: avatar in /home/customer/www/mathsgee.com/public_html/qa-theme/AVEN/qa-theme.php on line 993
What is the formula for perimeter of a rectangle?