| Running work capacity over critical power: a variable rather than a constant parameter |
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| Running critical power: between-day, interlimb and interunit reliability |
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| The ADR Encoder is a reliable and valid device to measure barbell mean velocity during the Smith machine bench press exercise |
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| Can We Predict Long-Duration Running Power Output? Validity of the Critical Power, Power Law, and Logarithmic Models |
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| Authors' Response to Letter to the Editor: Running Critical Power: A Comparison of Different Theoretical Models |
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| Acute Effect of Different Velocity-Based Training Protocols on 2000-meter Rowing Ergometer Performance |
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| Impact of Lifting Straps on the Relationship Between Maximum Repetitions to Failure and Lifting Velocity During the Prone Bench Pull Exercise |
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| Inter-Repetition Rest Impact on the Estimated Repetitions in Reserve at Various Loads and Proximities to Neuromuscular Failure. |
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| Sports Biomechanics Applied to Performance Optimization |
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| Acute Effect of Velocity-Based Resistance Training on Subsequent Endurance Running Performance: Volume and Intensity Relevance |
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| Lifting velocity predicts the maximum number of repetitions to failure with comparable accuracy during the Smith machine and free-weight prone bench pull exercises |
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| Inter-repetition Rest Impact on Percentage of Repetition Completed at Certain Velocity Loss. |
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| Correction: Running Critical Power: A Comparison Of Different Theoretical Models. |
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| Assessing the Maximal Mechanical Capacities Through the Load-Velocity Relationship in Elite Versus Junior Male Volleyball Players. |
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| Influence of the World Athletics Stack Height Regulation on Track Running Performance. |
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| Does the Menstrual Cycle Impact the Maximal Neuromuscular Capacities of Women? An Analysis Before and After a Graded Treadmill Test to Exhaustion. |
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| A Review of the Potential Effects of the World Athletics Stack Height Regulation on the Footwear Function and Running Performance |
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| Running Critical Power and W´: Influence of the Environment, Timing and Time Trial Order. |
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| The variability of the components of fitness along the menstrual cycle. |
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| Can we predict long-duration running power output? A matter of selecting the appropriate predicting trials and empirical model |
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| Determining critical power and W′ in running: Accuracy of different two-point models using the power metric |
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| Effects of Plyometric Jump Training on the Reactive Strength Index in Healthy Individuals Across the Lifespan: A Systematic Review with Meta-analysis |
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| Running Critical Power: A Comparison Of Different Theoretical Models. |
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| Running Functional Threshold versus Critical Power: Same concept but different values. |
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| Level of Agreement between the MotionMetrix System and an Optoelectronic Motion Capture System for Walking and Running Gait Measurements |
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| Lifting More Than Two Loads Compromises the Magnitude of the Load–Velocity Relationship Variables: Evidence in Two Variants of the Prone Bench Pull Exercise |
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| Kinetic and Kinematic Assessment of the Band-Assisted Countermovement Jump. |
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| Effect of Traditional, Rest Redistribution, and Velocity-Based Prescription on Repeated Sprint Training Performance and Responses in Semiprofessional Athletes |
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| Relationship Between the Number of Repetitions in Reserve and Lifting Velocity During the Prone Bench Pull Exercise: An Alternative Approach to Control Proximity-to-Failure |
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| Two-point Method Applied in Field Conditions: A Feasible Approach to Assess the Load-Velocity Relationship Variables During the Bench Pull Exercise. |
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| Effect of a High-Intensity Handball-Specific Fatigue Protocol Focused on the Leg Contralateral to the Throwing Arm on Interlimb Asymmetries. |
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| Validation of a Novel Reaction Time Test Specific for Military Personnel |
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| Effects of Plyometric Jump Training on Measures of Physical Fitness and Sport-Specific Performance of Water Sports Athletes: A Systematic Review with Meta-analysis |
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| Selective Effect of Different High-Intensity Running Protocols on Resistance Training Performance. |
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| Velocity Loss Is Not an Accurate Predictor of the Percentage of Completed Repetitions During the Prone Bench Pull Exercise. |
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| Association of the load-velocity relationship variables with 2000-m rowing ergometer performance |
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| The linear regression model provides the force-velocity relationship parameters with the highest reliability |
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| Effect of intra-session exercise sequence on the load-velocity relationship variables after a concurrent sprint interval and resistance training program |
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| A proposed model to test the hypothesis of exerciseinduced localized fat reduction (spot reduction), including a systematic review with meta-analysis |
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| Effect of footwear on the neuromuscular fatigue caused by a long-distance track session |
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| Acute Intraocular Pressure Responses to Resistance Training in Combination With Blood Flow Restriction |
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| Feasibility of the 2-point method to determine the load−velocity relationship variables during the countermovement jump exercise |
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| The Acute and Chronic Effects of Implementing Velocity Loss Thresholds During Resistance Training: A Systematic Review, Meta-Analysis, and Critical Evaluation of the Literature |
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| Jump rope training effects on health- and sport-related physical fitness in young participants: A systematic review with meta-analysis |
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| Intraocular pressure responses to a virtual reality shooting simulation in active-duty members of the Spanish Army: The influence of task complexity |
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| Association of military-specific reaction time performance with physical fitness and visual skills |
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| Lifting Velocity as a Predictor of the Maximum Number of Repetitions That Can Be Performed to Failure During the Prone Bench Pull Exercise |
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| The Criterion Validity and Between-Day Reliability of the Perch for Measuring Barbell Velocity During Commonly Used Resistance Training Exercises. |
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| Effect of intra-session exercise sequence of an 8-week concurrent training program on the components of physical fitness in recreationally trained young adults |
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| Effect of Augmented Feedback on Velocity Performance During Strength-Oriented and Power-Oriented Resistance Training Sessions |
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| Single-leg mechanical performance and inter-leg asymmetries during bilateral countermovement jumps: A comparison of different calculation methods |
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| Velocity Performance Feedback During the Free-Weight Bench Press Testing Procedure: An Effective Strategy to Increase the Reliability and One Repetition Maximum Accuracy Prediction |
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| Effect of the Menstrual Cycle When Estimating 1 Repetition Maximum From the Load-Velocity Relationship During the Bench Press Exercise |
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| The placement of linear transducers affects the magnitude but not the intra-session reliability of kinematic variables during the bench press exercise |
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| Load-Velocity Relationship Variables to Assess the Maximal Neuromuscular Capacities During the Back-Squat Exercise |
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| Force-Velocity Profile of Competitive Kayakers: Evaluation of a Novel Single Kayak Stroke Test |
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| Validity of the bench press one-repetition maximum test predicted through individualized load-velocity relationship using different repetition criteria and minimal velocity thresholds |
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| Comparison of the two most commonly used gold-standard velocity monitoring devices (GymAware and T-Force) to assess lifting velocity during the free-weight barbell back squat exercise |
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| Inter-limb differences in unilateral countermovement jump height are not associated with the inter-limb differences in bilateral countermovement jump force production. |
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| The load-velocity profiles of three upper-body pushing exercises in men and women |
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| Validation of a novel method to assess maximal neuromuscular capacities through the load-velocity relationship |
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| Between-session reliability of performance and asymmetry variables obtained during unilateral and bilateral countermovement jumps in basketball players |
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| Reliability and concurrent validity of the PUSH Band™ 2.0 to measure barbell velocity during the free-weight and Smith machine squat exercises |
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| Validity of Different Velocity-Based Methods and Repetitions-to-Failure Equations for Predicting the 1 Repetition Maximum During 2 Upper-Body Pulling Exercises |
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| Unilateral or Bilateral Standing Broad Jumps: Which Jump Type Provides Inter-Limb Asymmetries with a Higher Reliability? |
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| Assessment of back-squat performance at submaximal loads: Is the reliability affected by the variable, exercise technique, or repetition criterion? |
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| Prediction of One Repetition Maximum Using Reference Minimum Velocity Threshold Values in Young and Middle-Aged Resistance-Trained Males |
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| Ballistic, maximal strength and strength-endurance performance of male handball players: Are they affected by the evaluator's sex? |
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| Optimisation of applied loads when using the two-point method for assessing the force-velocity relationship during vertical jumps |
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| Differences in the one-repetition maximum and load-velocity profile between the flat and arched bench press in competitive powerlifters |
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| Sensitivity of the iLOAD® Application for Monitoring Changes in Barbell Velocity Following Power- and Strength-Oriented Resistance Training Programs. |
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| Assessment of the loaded squat jump and countermovement jump exercises with a linear velocity transducer: which velocity variable provides the highest reliability? |
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| Reliability and Validity of the iLOAD Application for Monitoring the Mean Set Velocity During the Back Squat and Bench Press Exercises Performed Against Different Loads |
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| The Bench Press Grip Width Does Not Affect the Number of Repetitions Performed at Different Velocity Loss Thresholds |
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| Effects of Wearing the Elevation Training Mask during Low-intensity Cycling Exercise on Intraocular Pressure |
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| Force–Velocity Vs. Power–Velocity Relationships: Which Method Provides the Maximum Power and Optimal Velocity with Higher Reliability during the Leg Cycle-Ergometer and Bench Press Throw Exercises? |
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| Reliability and Magnitude of Countermovement Jump Performance Variables: Influence of the Take-off Threshold |
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| Velocity Performance Feedback During Ballistic Training: Which Is the Optimal Frequency of Feedback Administration? |
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| Influence of Coaching Condition on the Magnitude and Reliability of Drop Jump Height in Men and Women. |
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| Reliability of low-cost near-infrared spectroscopy in the determination of muscular oxygen saturation and hemoglobin concentration during rest, isometric and dynamic strength activity |
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| Influence of countermovement depth on the countermovement jump-derived reactive strength index modified |
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| Changes in bench press performance and throwing velocity after strength-oriented and ballistic resistance training programs |
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| Group versus Individualised Minimum Velocity Thresholds in the Prediction of Maximal Strength in Trained Female Athletes |
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| Changes in the Load-Velocity Profile Following Power- and Strength-Oriented Resistance-Training Programs |
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| Knowledge of results during vertical jump testing: an effective method to increase the performance but not the consistency of vertical jumps |
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| The Novel Single-Stroke Kayak Test: Can It Discriminate Between 200-m and Longer-Distance (500- and 1000-m) Specialists in Canoe Sprint? |
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| Influence of Grip Width and Anthropometric Characteristics on the Bench-Press Load-Velocity Relationship |
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| The intraocular pressure response to lower-body and upper-body isometric exercises is affected by the breathing pattern |
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| Determinant Factors of Intraocular Pressure Responses to a Maximal Isometric Handgrip Test: Hand Dominance, Handgrip Strength and Sex |
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| Comparison of the Force-, Velocity-, and Power-Time Curves Between the Concentric-Only and Eccentric-Concentric Bench Press Exercises |
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| Intraocular pressure increases during dynamic resistance training exercises according to the exercise phase in healthy young adults |
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| Load-Velocity Relationship in Variations of the Half-Squat Exercise: Influence of Execution Technique |
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| Effects of caffeine consumption on intraocular pressure during low-intensity endurance exercise: A placebo-controlled, double-blind, balanced crossover study |
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| The force-velocity relationship obtained during the squat jump exercise is meaningfully influenced by the initial knee angle |
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| Assessment of Loaded Squat Jump Height With a Free-Weight Barbell and Smith Machine: Comparison of the Takeoff Velocity and Flight Time Procedures |
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| Comparison of the bench press one-repetition maximum obtained by different procedures: Direct assessment vs. lifts-to-failure equations vs. two-point method |
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| Influence of the grip width on the reliability and magnitude of different velocity variables during the bench press exercise |
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| Fiabilidad de la velocidad de ejecución en tres modalidades del ejercicio de press de banca: influencia del nivel de experiencia |
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| Reliability and magnitude of loaded countermovement jump performance variables: a technical examination of the jump threshold initiation |
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| Precision of 7 Commercially Available Devices for Predicting Bench-Press 1-Repetition Maximum From the Individual Load-Velocity Relationship |
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| Magnitude and reliability of mechanical outputs obtained during loaded squat jumps performed from different knee angles |
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| Assessment of the force-velocity relationship during vertical jumps: influence of the starting position, analysis procedures and number of loads |
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| Vertical jump performance is affected by the velocity and depth of the countermovement |
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| Rating of perceived exertion and velocity loss as variables for controlling the level of effort in the bench press exercise |
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| Assessment of unloaded and loaded squat jump performance with a force platform: Which jump starting threshold provides more reliable outcomes? |
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| Acute intraocular pressure changes during isometric exercise and recovery: The influence of exercise type and intensity, and participant´s sex |
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| Force-Velocity Relationship in the Countermovement Jump Exercise Assessed by Different Measurement Methods |
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| Influence of the breathing pattern during resistance training on intraocular pressure |
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| Reliability and Concurrent Validity of Seven Commercially Available Devices for the Assessment of Movement Velocity at Different Intensities During the Bench Press |
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| Effect of different velocity loss thresholds during a power-oriented resistance training program on the mechanical capacities of lower-body muscles |
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| Associations of the Force-velocity Profile with Isometric Strength and Neuromuscular Factors |
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| ASSESSMENT OF UPPER-BODY BALLISTIC PERFORMANCE THROUGH THE BENCH PRESS THROW EXERCISE: WHICH VELOCITY OUTCOME PROVIDES THE HIGHEST RELIABILITY? |
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| Reliability and concurrent validity of the Velowin optoelectronic system to measure movement velocity during the free-weight back squat |
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| Muscle Activation During Power-Oriented Resistance Training: Continuous vs. Cluster Set Configurations. |
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| EVALUATION OF THE MOST RELIABLE PROCEDURE OF DETERMINING JUMP HEIGHT DURING THE LOADED COUNTERMOVEMENT JUMP EXERCISE: TAKE-OFF VELOCITY VS. FLIGHT TIME |
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| Reliability of the Load-Velocity Relationship Obtained Through Linear and Polynomial Regression Models to Predict the 1-Repetition Maximum Load |
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| Comparison of Mechanical Outputs Between the Traditional and Ballistic Bench Press: Role of the Type of Variable. |
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| Intermittent Resistance Training at Moderate Altitude: Effects on the Force-Velocity Relationship, Isometric Strength and Muscle Architecture |
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| EVALUATION OF MUSCLE MECHANICAL CAPACITIES THROUGH THE TWO-LOAD METHOD: OPTIMIZATION OF THE LOAD SELECTION |
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| MEAN VELOCITY VS. MEAN PROPULSIVE VELOCITY VS. PEAK VELOCITY: WHICH VARIABLE DETERMINES BENCH PRESS RELATIVE LOAD WITH HIGHER RELIABILITY? |
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| Feasibility of the 2-Point Method for Determining the 1-Repetition Maximum in the Bench Press Exercise |
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| INFLUENCE OF A CLUSTER SET CONFIGURATION ON THE ADAPTATIONS TO SHORT-TERM POWER TRAINING |
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| Prediction of the Maximum Number of Repetitions and Repetitions in Reserve From Barbell Velocity |
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| Selective changes in the mechanical capacities of lower-body muscles after cycle-ergometer sprint training against heavy and light resistances |
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| Differences in the Load-Velocity Profile Between 4 Bench-Press Variants |
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| Optimal resistive forces for maximizing the reliability of leg muscles' capacities tested on a cycle ergometer |
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| Selective effects of different fatigue protocols on the function of upper body muscles assessed through the force-velocity relationship |
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| Assessment of leg muscles mechanical capacities: Which jump, loading, and variable type provide the most reliable outcomes? |
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| Reliability and magnitude of mechanical variables assessed from unconstrained and constrained loaded countermovement jumps |
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| Validity of a Linear Velocity Transducer for Testing Maximum Vertical Jumps |
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