When I look at your example, what jumps out at me is a problem with coupling between modules. (If you haven't already studied that concept, you probably soon will.) However, too much coupling and too little cohesion often go together, so hopefully I can still give you a helpful answer. (Oversimplified but adequate-for-here definitions: Cohesive modules do one focused thing instead of several unrelated things, and Coupled modules depend on one another to do whatever it is they do. We usually want modules to have strong cohesion internally but weak coupling to other modules.)
I infer from your pseudocode that you want to calculate the price of a bed like so:
* start with the floor price
* discount it
* add in a delivery fee
* subtract a trade-in credit
* the result is the cost of the bed
When you express it like that, you might notice that those operations are (or can be) pretty independent of each other. For example, the delivery fee doesn't really depend on the discounted price, just on whether or not a delivery fee is to be charged.
Now, the way you've structured your design, your 'DeliveryPrice' variable is really an "as delivered" price that does depend on the discounted price. This is the kind of thing we want to get rid of. We can say that your modules are too tightly coupled because they depend on each other in ways that are not really required to solve the problem. We can say that they lack cohesion because they are really doing more than one thing - i.e. the delivery price module is adding the delivery fee to the discounted price instead of just calculating the delivery fee.
It's hard to see with toy examples, but this matters as designs get more complex. With just a few lines of pseudocode, it seems perfectly natural to have a "running total" threaded between them. But what if the delivery fee depends on a complex calculation involving the distance to the customer's house, the weight of the purchase, and the day of the week? Now, having it also involve whatever the discounted price would get really confusing.
So, with all that in mind, consider this alternate design:
If DeliveryFeeCharged = “Yes” Then
DeliveryFee = 20
If TradeInCreditApplied = “Yes” Then
TradeInCredit = 5
DiscountPrice = (FloorPrice * (1 – DiscountRate))
AsDeliveredPrice = DiscountPrice + DeliveryFee
WithTradeInPrice = AsDeliveredPrice - TradeInCredit
CostOfBed = WithTradeInPrice
Now, coupling is reduced - the delivery and trade-in modules don't know anything at all about bed prices. This also improves their cohesion, since they are doing something more focused - calculating fees, not summing prices and fees. The actual price calculation does depend on the other modules, but that's inherent in the problem. And the calculation is cohesive - the "one thing" it's doing is calculating the price of the bed!