This PhysCast is going to deal with a problem that has a block being pulled up a ramp and how we can apply Newton's 2nd Law to analyse it. A 14.0 kg block is pulled up a frictionless ramp by a 70.0 N force parallel to the ramp. The ramp is inclined at 25 degrees to the horizontal. If the block is initially stationaly, how far does it move in the first 3.0 seconds
This PhysCast is about oscillatory motion. Two identical springs of spring constant 7580 Nm-1 are at...
Objectives: Students will be able to use Newton¡¦s second law (ƒÃ F = ma) to calcu...
The following PhysCast deals with the situation involving this unusual looking wheel. A constant hor...
This PhysCast is going to analyse a problem of two connecting blocks using the work-kinetic energy t...
In this PhysCast we are asked to consider the motion of two blocks connected by a cord. Block A has ...
We describe a simple experiment about sliding friction of an object moving with non-constant speed a...
This is a problem that involves the application of Newton's 2nd law of motion. Two masses, one 4.0 k...
College Physics, Vector AlgebraThe block speeds up as it slides down. How does the speed at the bott...
In this PhysCast we are asked to consider the motion of a uniform cylinder of mass m and radius R as...
Notions of newton's second law and of accelerationThis Demonstration depicts a two-block problem; it...
This problem involves work done by constant forces, including friction. A 40 kg box is pushed 5.0 me...
The following PhysCast is about a sphere which is attached to a wall. A uniform sphere of mass m = 0...
Using Interactive Physics 4 eighth grade students explored the question “What are the best combinati...
This is a question that involves rotational motion. A uniform rod of mass M and length L is attached...
The following PhysCast is a static equilibrium problem involving a crane and a boom
This PhysCast is about oscillatory motion. Two identical springs of spring constant 7580 Nm-1 are at...
Objectives: Students will be able to use Newton¡¦s second law (ƒÃ F = ma) to calcu...
The following PhysCast deals with the situation involving this unusual looking wheel. A constant hor...
This PhysCast is going to analyse a problem of two connecting blocks using the work-kinetic energy t...
In this PhysCast we are asked to consider the motion of two blocks connected by a cord. Block A has ...
We describe a simple experiment about sliding friction of an object moving with non-constant speed a...
This is a problem that involves the application of Newton's 2nd law of motion. Two masses, one 4.0 k...
College Physics, Vector AlgebraThe block speeds up as it slides down. How does the speed at the bott...
In this PhysCast we are asked to consider the motion of a uniform cylinder of mass m and radius R as...
Notions of newton's second law and of accelerationThis Demonstration depicts a two-block problem; it...
This problem involves work done by constant forces, including friction. A 40 kg box is pushed 5.0 me...
The following PhysCast is about a sphere which is attached to a wall. A uniform sphere of mass m = 0...
Using Interactive Physics 4 eighth grade students explored the question “What are the best combinati...
This is a question that involves rotational motion. A uniform rod of mass M and length L is attached...
The following PhysCast is a static equilibrium problem involving a crane and a boom
This PhysCast is about oscillatory motion. Two identical springs of spring constant 7580 Nm-1 are at...
Objectives: Students will be able to use Newton¡¦s second law (ƒÃ F = ma) to calcu...
The following PhysCast deals with the situation involving this unusual looking wheel. A constant hor...