04:34

Sliding Filament Theory

04:05

Isometric Length Tension Relationships

06:11

BENG 168 - Proteomics

04:29

BENG 168 - Polymerase Chain Reaction (PCR)

05:51

BENG 168 - Restriction Enzymes and Plasmids

06:27

Drawing a System's Block Diagram (Explanation and Example) | Biosystems and Control

03:34

Interview with Dr. Gert Cauwenberghs

01:28

How To Be Eco-Friendly at Home And in The Lab

04:14

Electrical Model of the Ag/AgCl Electrode | Bioinstrumentation Design

06:15

Ag/AgCl Electrode | Bioinstrumentation Design

06:02

Constitutive Law for Linear (Hookean) Elasticity | Biomechanics

03:39

Elastic Solids and Linear Hookean Elastic Solids | Biomechanics

03:59

The 2021 Big BENG Video Contest Winners - Mohamed, Fernanda, Roberto

07:05

The Deformation Gradient Tensor | Biomechanics

07:05

Polar Decomposition of the Deformation Gradient Tensor

02:21

The 2021 Big BENG Video Contest Winner - Kha

07:10

Severinghaus pCO2 Electrode | Bioinstrumentation Design

05:38

pH Electrode | Bioinstrumentation Design

05:22

Driven Right Leg Circuit (Active Grounding) | Bioinstrumentation Design

03:45

Interview with Dr. Geert Schmid-Schoenbein

03:28

Convection and Convective Mass Transfer Geometries | Bioengineering Mass Transfer

02:38

Soft Robots | Here's What You Need to Know

05:08

Semi-infinite vs. Finite Medium Assumptions | Bioengineering Mass Transfer

03:46

Problem Solving Steps | Bioengineering Mass Transfer

06:16

Picking Your Assumptions | Bioengineering Mass Transfer

03:40

How to Survive BENG 103B | Bioengineering Mass Transfer

08:27

Differential Instrumentation Amplifier | Bioinstrumentation Design

01:44

The Big BENG at UCSD | 2021 Video Contest

03:03

Nernst Potential Practice Problem | Bioinstrumentation Design

03:53

The Nernst Potential and The Cell Membrane | Bioinstrumentation Design

03:41

Comparators | Bioinstrumentation Design

01:39

Thermodynamics of Acid Reflux

05:33

Digital Circuits with Practice Problems | Bioinstrumentation Design

07:31

Basics of a 555 Timer Integrated Circuit (IC) | Bioinstrumentation Design

02:07

ATP-Coupled Reaction and Thermodynamics

02:32

Thermodynamics of Protein Structure & Folding

01:51

What’s in your thermos flask? | The Thermodynamics Answer

04:15

Operational Amplifiers (Practice Problems) | Bioinstrumentation Design

03:47

Dynamics | Acceleration in Centrifuge (Practice Problem)

03:51

Dynamics | Angular acceleration and tangential acceleration component (Practice Problem)

03:28

Dynamics | Equilibrium, angular momentum, and rotational inertia (Practice Problem)

03:11

Dynamics | Kinetics: Dynamic Equilibrium, D'Alembert's Principle, and Rigid Body Equations of Motion

06:06

Dynamics | Kinetics: Angular Momentum and Moment of Inertia

03:58

Dynamics | General Rigid Body Motion

01:30

Operational Amplifier Buffer | Bioinstrumentation Design

04:45

Operational Amplifiers: Low and High Pass Filters | Bioinstrumentation Design

03:32

Operational Amplifiers: Inverting and Non-Inverting | Bioinstrumentation Design

03:59

Introduction to Operational Amplifiers (Op Amps) | Bioinstrumentation Design

03:58

Wheatstone Bridges with Strain Gauges | Bioinstrumentation Design

04:15

Strain Gauges and the Gauge Factor | Bioinstrumentation Design

02:26

Dynamics | Rotation About a Fixed Point or a Fixed Axis

03:05

Dynamics | Angular Kinematics (II): Particle Velocity and Particle Acceleration

05:47

Dynamics | Angular Kinematics (I): Angular Velocity and Angular Acceleration (Tangential and Normal)

03:40

How many burritos do you need to eat to charge your phone? | Exercise Bike and Energy Conversion

02:43

What happens in your body after you drink boba tea?

03:02

Dynamics | Kinetics: Linear Momentum, The Inertial Force, and Normal and Tangential Forces

06:33

Dynamics | Particle Kinematics | Velocity and (tangential and normal) Acceleration

02:01

Carryover Cooking and Thermodynamics

07:12

Drawing a Circuit Diagram's Bode Plots | Practice Problem 2

03:11

Photosynthesis as an Application of Thermodynamics