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Craniocervical feeding dynamics of Tyrannosaurus rex
Eric Snively
, Anthony P. Russell
Research output
:
Contribution to journal
›
Article
›
peer-review
36
Scopus citations
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Keyphrases
Tyrannosaurus Rex
100%
Craniocervical
100%
Feeding Dynamics
100%
Head-and-neck
66%
Tyrannosaurus
66%
Rotational Inertia
66%
Capsulitis
66%
Generating Capacity
66%
Bite Force
33%
Force Generation
33%
High Efficacy
33%
Archosaur
33%
Muscle Force
33%
Sensitivity Analysis
33%
Feeding Device
33%
Theropod
33%
T-REX
33%
High Latitude
33%
Muscle Attachment
33%
Tears
33%
Neck muscles
33%
Eccentric Contraction
33%
Longissimus
33%
Gaze Shift
33%
Muscle Moment
33%
Transversospinalis
33%
Moment Arm
33%
Vector-based Method
33%
Deep muscle
33%
Result Accuracy
33%
Estimation Error
33%
D-vector
33%
Superficial muscles
33%
Tangential Velocity
33%
Muscle Morphology
33%
Radial Acceleration
33%
Biochemistry, Genetics and Molecular Biology
Dynamics
100%
Prey
100%
Mastication
100%
Reconstruction
100%
Muscle Strength
100%
Archosaur
100%
Eccentric Muscle Contraction
100%
Gaze
100%
Body Position
100%
Medicine and Dentistry
Neck
100%
Arm
33%
Prey
33%
Muscle Strength
33%
Body Position
33%
Eccentric Muscle Contraction
33%
Neck Muscle
33%
Gaze
33%
Pharmacology, Toxicology and Pharmaceutical Science
Prey
100%
Archosaur
100%
Agricultural and Biological Sciences
Neck
100%
Mastication
25%
Archosaur
25%
Muscle Strength
25%
Neuroscience
Feeding Behavior
100%