Write a SELECT statement that returns the same result set as this SELECT statement, but don’t use a join. Instead, use a subquery in a WHERE clause that uses the IN keyword.
SELECT DISTINCT category_name FROM categories c JOIN products p
ON c.category_id = p.category_id ORDER BY category_name
Write a SELECT statement that answers this question: Which products have a list price that’s greater than the average list price for all products?
Return the product_name and list_price columns for each product. Sort the results by the list_price column in descending sequence.
Write a SELECT statement that returns the category_name column from the Categories table.
Return one row for each category that has never been assigned to any product in the Products table. To do that, use a subquery introduced with the NOT EXISTS operator.
Write a SELECT statement that returns three columns: email_address, order_id, and the order total for each customer. To do this, you can group the result set by the email_address and order_id columns. In addition, you must calculate the order total from the columns in the Order_Items table.
Write a second SELECT statement that uses the first SELECT statement in its FROM clause. The main query should return two columns: the customer’s email address and the largest order for that customer. To do this, you can group the result set by the email_address.
Write a SELECT statement that returns the name and discount percent of each product that has a unique discount percent. In other words, don’t include products that have the same discount percent as another product.
Sort the results by the product_name column.
Use a correlated subquery to return one row per customer, representing the customer’s oldest order (the one with the earliest date). Each row should include these three columns: email_address, order_id, and order_date.