Mutahar Mehkri

The University of Texas at Arlington
Avid Tutor

Biography

Hello,

I am very familiar with mathematical subjects and am used to teaching my peers through out school. I am looking to earn extra money during COVID times and will not let you down if you give me a shot!

Thank you,
Mutahar Mehkri

Education

BA Mechanical and Aerospace Engineering
The University of Texas at Arlington

Educator Statistics

Numerade tutor for 6 years
393 Students Helped

Topics Covered

Unlock the Power of Sequences: Boost Your Productivity
Discover the Best Series to Binge-Watch | Your Ultimate Guide
Breaking Limits: Unlock Your Potential with Our Expert Solutions
Mastering Integrals: Tips and Tricks for Calculus Success
Mastering Multiple Integrals: Techniques and Tips
Master Vector Calculus with Our Comprehensive Guide
Differential Equations Made Simple: Expert Tips & Resources
Stand Out with Differentiation Strategies | Boost Your Business
Unlocking the Power of Functions: Boost Your Programming Skills
Exploring the World of Derivatives: A Comprehensive Guide
Applications of the Derivative
Integration
Mastering Equations and Inequalities: Your Guide to Mathematical Success
Explore the Power of Continuous Functions: Boost Your Mathematical Skills
Applications of Integration: Exploring Real-World Solutions
Mastering Integration Techniques for Optimal Results
Mastering Partial Derivatives: Essential Techniques and Tips
Area Between Curves
Volume
Arc Length and Surface Area
Mastering Exponential and Logarithmic Functions: Your Ultimate Guide
Master Trigonometry with Our Comprehensive Guide
Unlock the Power of Vectors: Discover Their Limitless Possibilities
Vector Functions: Understanding the Basics
Mastering Fractions and Mixed Numbers: A Comprehensive Guide
Rational Numbers
Mastering Linear Equations and Inequalities: Essential Techniques
Series Tests
Alternating Series Test
Power Series
Taylor Series
Unlock Insights with Data-Driven Graphs & Statistics
Functions
Mastering Quadratic Functions: Unlocking Their Power
Understanding Complex Numbers: A Comprehensive Guide
Mastering Polynomials: Essential Tips and Tricks | [Brand Name]
Rational Functions: Understanding Their Properties and Applications
Discover the Basics of Trigonometry: Your Introduction to Triangles
Solving Systems of Equations and Inequalities: A Comprehensive Guide
Mastering Matrices: An Introduction to the Fundamentals
Mastering Matrices: Essential Tips and Tricks | Boost Your Math Skills
Applications of Trigonometric Functions
Graphing Trigonometry Functions

Mutahar's Textbook Answer Videos

04:37
Calculus: Early Transcendentals

Find the volume of the solid obtained by rotating the region bounded by the given curves about the specified line. Sketch the region, the solid, and a typical disk or washer.
$$
y=x, y=0, x=2, x=4 ; \quad \text { about } x=1
$$

Chapter 6: Applications of Integration
Section 2: Volumes
Mutahar Mehkri
01:50
Calculus: Early Transcendentals

Refer to the figure and find the volume generated by rotating the given region about the specified line.

$ \Re_1 $ about $ OA $

Chapter 6: Applications of Integration
Section 2: Volumes
Mutahar Mehkri
06:35
Calculus: Early Transcendentals

Find the derivative of the function

$ F(x) = \frac {x^2 - 5x^3 + \sqrt{x}}{x^2} $

in two ways: by using the Quotient Rule and by simplifying tirst. Show that >our an\uer\ are equivalent Which method do you prefer?

Chapter 3: Differentiation Rules
Section 2: The Product and Quotient Rules
Mutahar Mehkri
02:41
Calculus: Early Transcendentals

Find the volume of the described solid $ S $.
A right circular cone with height $ h $ and base radius $ r $.

Chapter 6: Applications of Integration
Section 2: Volumes
Mutahar Mehkri
04:06
Calculus: Early Transcendentals

The linear density in a rod 8 m long is $ \frac{12}{\sqrt{x + 1}} $ kg/m, where $ x $ is measured in meters from one end of the rod.
Find the average density of the rod.

Chapter 6: Applications of Integration
Section 5: Average Value of a Function
Mutahar Mehkri
08:29
Calculus: Early Transcendentals

After the consumption of an alcoholic beverage, the concentration of alcohol in the bloodstream (blood alcohol concentration, or BAC) surges as the alcohol is absorbed, followed by a gradual decline as the alcohol is metabolized. The function

$$ C(t) = 1.35te^{-2.802t} $$

models the average BAC, measured in mg/mL, in a group of eight male subjects $t$ hours after rapid consumption of $15$ ml of ethanol (corresponding to one alcoholic drink). What is the maximum average BAC during the first $3$ hours? When does it occur?

Source: Adapted from P. Wilkinson et. al., "Pharmacokinetics of Ethanol after Oral Administration in the Fasting State," Journal of Pharmacokinetics and Biopharmaceutics 5 (1977): 207-24.

Chapter 4: Applications of Differentiation
Section 1: Maximum and Minimum Values
Mutahar Mehkri
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