in any relational database, many to many relationships must have a join table to represent the combinations. As provided in the answer (but without much of the theoretical background), you cannot represent a many to many relationship without having a table in the middle to store all the combinations.
It was also mentioned in the solution that it only solves your problem if you don't need history. Trust me when I tell you that real world applications almost always need to represent historical data. There are many ways to do this, but a simple method might be to create what's called a ternary relationship with an additional table. You could, in theory, create a "time" table that also links its primary key (say a distinct timestamp) with the inherited keys of the other two source tables. this would enable you to prevent errors where two cars are located in the same parking spot during the same time. using a time table can allow you the ability to re-use the same time data for multiple parking spots using a simple integer id.
So, your data tables might look like so
car_id (integers/numbers are fastest to index)
begin_datetime (don't use seconds unless you must!)
end_time (don't use seconds unless you must!)
now, here's where it gets fun. You add the middle table with a composite primary key that is made up of car.car_id + parking_space.space_id + time_id. There are other things you could add to optimize here, but you get the idea, I hope.
time_id PK (it's an integer - just try to keep it as highly granular as possible - 30 minute increments or something - if you allow this to include seconds / milliseconds /etc the advantages are cancelled out because you can't re-use the same value from the time table)
(this would also be the place to store variable rates, discounts, etc distinct to this particular account, reservation, etc).
now, you can reduce the amount of data because you aren't replicating the timestamp in the join table (reservation). By using an integer, you can re-use that timeslot for multiple parking spaces, but you could also apply a constraint preventing two cars from renting that given spot for the same "timeslot" for a given day / timeframe. This would also make it easier to store some history about the customers - who knows, you might want to see reports on customers who rent more often and offer them discounts or something.
By using the ternary relationship model, you are making each spot unique to a given timeslot (perhaps with some added validation rules), so the system can only store one car in one parking spot for one given time period.
By using integers as keys instead of timestamps, you are assured that the database won't need to do any heavy lifting to index the keys and sort / query against. This is a common practice in data warehousing / OLAP reporting when you have massive datasets and you need efficiency. I think it applies here as well.