Impara Aritmetica di Base e Precedenza degli Operatori

You'll use arithmetic operators constantly in Python. Consider the most common ones and how precedence determines evaluation order.

Main Operations


              12345678
            
a = 10
b = 3

print(a + b)  # Addition
print(a - b)  # Subtraction
print(a * b)  # Multiplication
print(a / b)  # Division
print(a ** b)  # Exponentiation

Operator Precedence

When multiple operators appear, Python evaluates them in this order (highest → lowest among arithmetic):

**;
Unary + and - (sign);
*, /;
+, -.

Parentheses always win and make intent explicit. Exponentiation ** is right-associative.


              123456789
            
print(2 + 3 * 4)     # 14  (multiplication before addition)
print((2 + 3) * 4)   # 20  (parentheses change the order)

# Exponentiation binds tighter than unary minus
print(-3 ** 2)       # -9  (equivalent to -(3 ** 2))
print((-3) ** 2)     # 9

# Right-associative exponentiation
print(2 ** 3 ** 2)   # 512 (2 ** (3 ** 2))

Note

Prefer parentheses in anything nontrivial, readability > cleverness.
Remember / always yields a float (even if divisible).

Tutto è chiaro?

Grazie per i tuoi commenti!

Sezione 1. Capitolo 2

Chieda ad AI

Chieda pure quello che desidera o provi una delle domande suggerite per iniziare la nostra conversazione

Suggested prompts:

Can you explain more about operator precedence in Python?

What happens if I divide by zero in Python?

Can you give more examples of using parentheses to change evaluation order?

Scorri per mostrare il menu

You'll use arithmetic operators constantly in Python. Consider the most common ones and how precedence determines evaluation order.

Main Operations


              12345678
            
a = 10
b = 3

print(a + b)  # Addition
print(a - b)  # Subtraction
print(a * b)  # Multiplication
print(a / b)  # Division
print(a ** b)  # Exponentiation

Operator Precedence

When multiple operators appear, Python evaluates them in this order (highest → lowest among arithmetic):

**;
Unary + and - (sign);
*, /;
+, -.

Parentheses always win and make intent explicit. Exponentiation ** is right-associative.


              123456789
            
print(2 + 3 * 4)     # 14  (multiplication before addition)
print((2 + 3) * 4)   # 20  (parentheses change the order)

# Exponentiation binds tighter than unary minus
print(-3 ** 2)       # -9  (equivalent to -(3 ** 2))
print((-3) ** 2)     # 9

# Right-associative exponentiation
print(2 ** 3 ** 2)   # 512 (2 ** (3 ** 2))

Note

Prefer parentheses in anything nontrivial, readability > cleverness.
Remember / always yields a float (even if divisible).

Tutto è chiaro?

Grazie per i tuoi commenti!

Sezione 1. Capitolo 2

Aritmetica di Base e Precedenza degli Operatori

Main Operations

Operator Precedence

1. What value will this code output?

2. Which expression evaluates to `64`?

3. What value will this code output?

Aritmetica di Base e Precedenza degli Operatori

Main Operations

Operator Precedence

1. What value will this code output?

2. Which expression evaluates to `64`?

3. What value will this code output?

Aritmetica di Base e Precedenza degli Operatori

Main Operations

Operator Precedence

1. What value will this code output?

2. Which expression evaluates to 64?

3. What value will this code output?

Aritmetica di Base e Precedenza degli Operatori

Main Operations

Operator Precedence

1. What value will this code output?

2. Which expression evaluates to 64?

3. What value will this code output?

2. Which expression evaluates to `64`?

2. Which expression evaluates to `64`?