Formula Sheet - Blank File
... (If not at top or bottom of circle, you might have to find components of Fg (if FT is toward center) or find components of FT (If FT is NOT toward center)) ...
... (If not at top or bottom of circle, you might have to find components of Fg (if FT is toward center) or find components of FT (If FT is NOT toward center)) ...
psc 1121 – physical science
... defined as the change in distance per unit time. We then defined acceleration (a) as the change in velocity per unit time. This left us with equations such as: v=(xf-xi)/2; a=(vf-vi)/2 d=vt v=v0 + at. Average speed was (vf-vi)/2. d=(1/2) at2 We found that things in “free-fall” fall with the accelera ...
... defined as the change in distance per unit time. We then defined acceleration (a) as the change in velocity per unit time. This left us with equations such as: v=(xf-xi)/2; a=(vf-vi)/2 d=vt v=v0 + at. Average speed was (vf-vi)/2. d=(1/2) at2 We found that things in “free-fall” fall with the accelera ...
Set 5
... elements of the inertia tensor. Note that the disk has azimuthal symmetry. b) The disk is now caused to rotate with a constant angular velocity ω about an axis that lies in the xzplane and makes an angle θ with the z-axis. Derive a relation between θ and the angle α that the angular momentum vector ...
... elements of the inertia tensor. Note that the disk has azimuthal symmetry. b) The disk is now caused to rotate with a constant angular velocity ω about an axis that lies in the xzplane and makes an angle θ with the z-axis. Derive a relation between θ and the angle α that the angular momentum vector ...
Ch.8 Rotational Equilibrium and Rotational Dynamics.
... Moment of Inertia For a point object: The moment of inertia is: I = mr2 m is the object mass and r is the distance to the axis of rotation. For a rigid body made up of more than one point, we need to add up the moments of inertia for each point. ...
... Moment of Inertia For a point object: The moment of inertia is: I = mr2 m is the object mass and r is the distance to the axis of rotation. For a rigid body made up of more than one point, we need to add up the moments of inertia for each point. ...
PHY492: Nuclear & Particle Physics Lecture 5 Angular momentum Nucleon magnetic moments
... Spin angular momentum Many “elementary” particles, e.g., electron and neutrino, carry one half unit ( ) of angular momentum known as “spin”. With no spatial dimension, nothing is “spinning” or orbiting. Protons and neutrons are spin 1/2, therefore, nuclei can have s = 1/2 integer. ...
... Spin angular momentum Many “elementary” particles, e.g., electron and neutrino, carry one half unit ( ) of angular momentum known as “spin”. With no spatial dimension, nothing is “spinning” or orbiting. Protons and neutrons are spin 1/2, therefore, nuclei can have s = 1/2 integer. ...
PhD position: Quantum information processing with single electron spins
... build an exciting new experiment: a levitated diamond particle, 100 nm to 1 μm in size, held up by optical and ion trapping. To make our scheme work we will need to cool the centre-of-mass vibrational state of the trapped particle to the quantum mechanical ground state. We have already demonstrated ...
... build an exciting new experiment: a levitated diamond particle, 100 nm to 1 μm in size, held up by optical and ion trapping. To make our scheme work we will need to cool the centre-of-mass vibrational state of the trapped particle to the quantum mechanical ground state. We have already demonstrated ...
