585 results for "solve".
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Question in Yvonne's workspace
No description given
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Question in Engineering StaticsUse the method of joints to solve for the forces in a cantilever truss.
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Exam (3 questions) in Engineering Statics
Homework set. Trusses solved using the method of sections
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Question in Engineering Statics
This just an equilibrium of a particle problem, but posed in context of a joint as a warm-up for the method of joints.
Advice is brief.
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Solve a Differential equation with 3 simple linear factors
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Question in Martin's workspace
Solve equation involving exponential function.
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Question in Martin's workspace
Solve equation involving exponential function
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Question in Martin's workspace
Solve equation involving exponential function.
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Question in Martin's workspace
Solve equation involving logarithmic function.
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Question in Martin's workspace
Solve equation involving logarithmic function.
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Question in MASH Bath: Question Bank
Set up and solve an equation = 1, to ensure a function is a CRV
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Question in Content created by Newcastle University
Putting a pair of linear equations into matrix notation and then solving by finding the inverse of the coefficient matrix.
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Question in Year 1 Formative Quiz Semester 1
Solve a trigonometric equation
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Question in Martin's workspace
Solve a trigonometric equation involving a conversion to tangent by division by cosine.
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Question in Shaheen's workspace
This question tests the student's ability to solve simple linear equations by elimination. Part a) involves only having to manipulate one equation in order to solve, and part b) involves having to manipulate both equations in order to solve.
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Question in Shaheen's workspace
Some quadratics are to be solved by factorising
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Question in Asm's workspace
No description given
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Question in MASH Bath: Question Bank
Find the $x$ and $y$ components of a force which is applied at an angle to a particle. Resolve using $F \cos \theta$. The force acts in the positive $x$ and positive $y$ direction.
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Question in MASH Bath: Question Bank
Find the $x$ and $y$ components of a force which is applied at an angle to a particle. Resolve using $F \cos \theta$. The force is applied in the negative $x$ and negative $y$ direction.
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Question in NCL MAS3801
Find the eigenfunctions of an irregular Sturm–Liouville problem and hence solve an inhomogeneous boundary value problem by writing the solution as an eigenfunction expansion.
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Question in Discrete Mathematics
In this question the students have to solve a linear recurrence of order 1. The sequence is asked in recurrence form and the goal is to find its closed form.
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Question in MASH Bath: Question Bank
Part (a): Given two cubic functions $g(x)$ and $h(x)$ of the form $ax^3+bx^2+cx+d$, give an expression for the function $f(x)$, where $f(x)=g(x)-2h(x)$.
Part (b): Solve $f(x)=0$.
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Question in MASH Bath: Question Bank
Given two cubic functions $g(x)$ and $h(x)$ of the form $ax^3+bx^2+cx+d$, solve the equation $g(x)=2h(x)$, giving all possible solutions for $x$.
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Exam (2 questions) in Andrew's workspace
Using Gaussian Elimination to solve 3X3 systems of equations
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Question in Andrew's workspace
Solving a system of three linear equations in 3 unknowns using Gaussian Elimination (or Gauss-Jordan algorithm) in 5 stages. Solutions are all integers. Introductory question where the numbers come out quite nice with not much dividing. Set-up is meant for formative assessment. Adapated from a question copied from Newcastle.
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Question in Andrew's workspace
Solving a system of three linear equations in 3 unknowns using Gaussian Elimination (or Gauss-Jordan algorithm) in 5 stages. Solutions are all integers. Introductory question where the numbers come out quite nice with not much dividing. Set-up is meant for formative assessment. Adapated from a question copied from Newcastle.
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Exam (5 questions) in Ed's workspace
Solve simple two step linear equations with feedback.
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Question in XE420
Solve for $x$: $\displaystyle \frac{a} {bx+c} + d= s$
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Question in XE420
Solve for $x$: $\displaystyle \frac{s}{ax+b} = \frac{t}{cx+d}$
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Question in XE420
Solve for $x$: $\displaystyle ax+b = cx+d$