49 results for "block".
-
Question in Clodagh's workspace
Simple Indefinite Integrals
-
Question in Clodagh's workspace
Simple Indefinite Integrals
-
Question in Benjamin's workspace
Show one of several blocks of text depending on the value of a question variable.
As well as a simple check for the value of a variable, the condition to display a block of text can be a complex expression in any of the question variables - in this example, depending on the discriminant of the generated quadratic.
-
Question in Tom's workspace
A static block of given mass is sits on a flat plane with defined static and kinetic friction values. It is pushed with enough force to start it moving - calculate the speed of the block after a given distance.
-
Question in Foundation course FS0013 Heat and Energy
A block of given mass is sits on a flat plane with defined static and kinetic friction values. Randomly, it does one of two things, it is either:
1) pushed with enough force to start it moving - calculate the force on the block or the static friction.
2) moving over a distance - calculate the work done or the kinetic friction
(are these uneven calculations)
-
Question in Tom's workspace
A block of given mass is sits on a flat plane with defined static and kinetic friction values. Randomly, it does one of two things, it is either:
1) pushed with enough force to start it moving - calculate the force on the block or the static friction.
2) moving over a distance - calculate the work done or the kinetic friction
(are these uneven calculations)
-
Question in Algebra Mat140
Inverse and division of complex numbers. Four parts.
-
Question in Complex
Inverse and division of complex numbers. Four parts.
-
Question in simon's workspace
A copy of Amy Chadwicks block question, with adaptions to provide a diagram for the student.
A block of given mass is sliding down the plane, with given acceleration. Find the normal reaction force, the coefficient of friction, and the distance travelled before reaching a given speed.
-
Question in John's workspace
Inverse and division of complex numbers. Four parts.
-
Question in MATH6005 Engineering Mathematics 101
Inverse and division of complex numbers. Four parts.
-
Question in Violeta's workspace
Inverse and division of complex numbers. Four parts.
-
Question in Tom's workspace
A block of given mass is sliding down the plane with a given acceration. Find the normal reaction force, the parallel force and the missing value of a and mu.
-
Question in Johan's workspace
Show one of several blocks of text depending on the value of a question variable.
As well as a simple check for the value of a variable, the condition to display a block of text can be a complex expression in any of the question variables - in this example, depending on the discriminant of the generated quadratic.
-
Question in Mark's workspace
Show one of several blocks of text depending on the value of a question variable.
As well as a simple check for the value of a variable, the condition to display a block of text can be a complex expression in any of the question variables - in this example, depending on the discriminant of the generated quadratic.
-
Question in Maths Support Wiki - Mechanics
A block of given mass is sliding down the plane, with given acceleration. Find the normal reaction force, the coefficient of friction, and the distance travelled before reaching a given speed.
-
Question in John's workspace
A block of given mass is sliding down the plane, with given acceleration. Find the normal reaction force, the coefficient of friction, and the distance travelled before reaching a given speed.
-
Question in Maths Support Wiki - Mechanics
A block lies on rough horizontal ground. The coefficient of friction is given and students find the maximum value of friction $F_{\text{MAX}} = \mu R$. This is then used to determine the magnitude of force that must be exceeded to achieve movement when the force is applied horizontally and at two different angles to the horizontal.
-
Question in Maths Support Wiki - Mechanics
A block lies on rough horizontal ground. The coefficient of friction is given and students find the maximum value of friction $F_{\text{MAX}} = \mu R$ to determine if the block will move when three different magnitudes of force act on the block horizontally.