The RX-7's rotary engine can suffer from wear and scoring of the rotor housing, leading to compression loss and reduced power.

The apex seals in the rotary engine are prone to wear and breakage, which can result in poor engine performance and starting issues.

Coolant seals may degrade over time, causing coolant to leak into the combustion chamber or oil system, potentially leading to overheating or engine damage.

Rotary engines tend to consume more oil than piston engines, which can lead to frequent oil changes and monitoring.

Vacuum hoses and connections can become brittle and leak over time, causing inconsistent engine performance and idle issues.

The ignition system, including spark plugs and ignition coils, may require frequent maintenance due to the high-revving nature of the rotary engine.

Dirty or failing fuel injectors can cause poor fuel delivery, leading to rough idling, misfires, and decreased fuel efficiency.

Rotary engines may produce higher emissions, which could lead to difficulty passing emissions tests and potential legal issues.

The RX-7's rotary engine can produce a lot of heat, necessitating a well-maintained cooling system to prevent overheating and maintain performance.

The rotary engine's design often results in lower fuel efficiency compared to conventional piston engines, leading to higher running costs.

The RX-7's rotary engine can suffer from wear and scoring of the rotor housing, leading to compression loss and reduced power.

The apex seals in the rotary engine are prone to wear and breakage, which can result in poor engine performance and starting issues.

Coolant seals may degrade over time, causing coolant to leak into the combustion chamber or oil system, potentially leading to overheating or engine damage.

Rotary engines tend to consume more oil than piston engines, which can lead to frequent oil changes and monitoring.

Vacuum hoses and connections can become brittle and leak over time, causing inconsistent engine performance and idle issues.

The ignition system, including spark plugs and ignition coils, may require frequent maintenance due to the high-revving nature of the rotary engine.

Dirty or failing fuel injectors can cause poor fuel delivery, leading to rough idling, misfires, and decreased fuel efficiency.

Rotary engines may produce higher emissions, which could lead to difficulty passing emissions tests and potential legal issues.

The RX-7's rotary engine can produce a lot of heat, necessitating a well-maintained cooling system to prevent overheating and maintain performance.

The rotary engine's design often results in lower fuel efficiency compared to conventional piston engines, leading to higher running costs.

The RX-7's rotary engine can suffer from wear and scoring of the rotor housing, leading to compression loss and reduced power.

The apex seals in the rotary engine are prone to wear and breakage, which can result in poor engine performance and starting issues.

Coolant seals may degrade over time, causing coolant to leak into the combustion chamber or oil system, potentially leading to overheating or engine damage.

Rotary engines tend to consume more oil than piston engines, which can lead to frequent oil changes and monitoring.

Vacuum hoses and connections can become brittle and leak over time, causing inconsistent engine performance and idle issues.

The ignition system, including spark plugs and ignition coils, may require frequent maintenance due to the high-revving nature of the rotary engine.

Dirty or failing fuel injectors can cause poor fuel delivery, leading to rough idling, misfires, and decreased fuel efficiency.

Rotary engines may produce higher emissions, which could lead to difficulty passing emissions tests and potential legal issues.

The RX-7's rotary engine can produce a lot of heat, necessitating a well-maintained cooling system to prevent overheating and maintain performance.

The rotary engine's design often results in lower fuel efficiency compared to conventional piston engines, leading to higher running costs.