MVP
James Conrad Tour of Terror Eclipse Detour
▌ Color Accurate Photos of Every Disc
▌ All Discs Ship in a Box
▌ $5 Flat Rate Shipping
▌ Free Shipping Over $75
▌ Most Orders Ship Same Day
Slightly Understable Midrange
| 5 | 5 | -2 | 1 |
| SPEED | GLIDE | TURN | FADE |
|---|
At the confluence of the Ohio and Kanawha Rivers stands the sleepy town of Point Pleasant, West Virginia. Home to roughly 4,000 residents, the forests and hills surrounding it have contained a dark secret for nearly 60 years - the Mothman. Now you can terrorize the course with your very own Mothman, illustrated by DoubleRam Design on the Eclipse Detour! A recent fan-favorite release, this understable midrange is sure to be a staple in your bag for evening rounds. Get this new James Conrad Team Series disc before it becomes a secret legend of its own!
The Detour
Fitting perfectly between the Axiom Hex and MVP Uplink, the newest addition to the James Conrad lineup slides in as a slightly understable midrange. As a backhand dominant player, Conrad is known for his beautiful turnover lines, and the Detour excels at those long panning turnovers as well as easy hyzer-flips. Experienced players will find the Detour to be exceptionally easy to manipulate for a wide variety of shot shapes, while newer players will find a delightfully straight flier, perfect for learning the game.
Detour Specifications
- Diameter: 21.6 cm
- Height: 1.6 cm
- Rim Width: 1.4 cm
- Rim Depth: 1.3 cm
- Bead: None
- PDGA Approved: 9.5.23
Eclipse Plastic
Eclipse plastic is a blend of MVP's Proton plastic with a new color glow blend! Hit these discs with some light and they will carry a bright glow to keep the game alive after dark. Streamline Eclipse Proton plastic is a highly durable blend for a consistent flight round after round.
The Science of Gyro
MVP's GYRO® Overmold Technology is a design that is produced through a two-step molding process that allows the outer ring to be made with a heavier material. The process of transferring mass away from the axis of rotation increases the disc’s moment of inertia at parabolic proportions.
Since linear and angular momentum and aerodynamics act upon each other simultaneously, an enhanced gyroscopic effect will improve all aspects of disc flight. Increased angular momentum of a disc in flight will allow the disc to stay on its rotational axis for a longer period of time, which means that its aerodynamic properties will be better exhibited for a longer period of time. When a thrower uses our discs, they will be able to achieve straighter, longer, and more accurate results.
