Solutions - UCSB C.L.A.S.
... traveling North at 12 m/s. The mass of Car A is 1000 kg and the mass of Car B is 2000 kg. Driver A is applying mascara to her eyelashes, and driver B is reading a text message, so neither of them slows down as they approach the intersection. When the cars crash into each other, they stick together. ...
... traveling North at 12 m/s. The mass of Car A is 1000 kg and the mass of Car B is 2000 kg. Driver A is applying mascara to her eyelashes, and driver B is reading a text message, so neither of them slows down as they approach the intersection. When the cars crash into each other, they stick together. ...
Product Instructions: Inclined Plane
... For a normal balance, the two masses would need to be the same in order for the system to be in equilibrium. However, only a component of the weight of 1 is acting to pull it down the incline, so the mass of 2 only need be equal and opposite to the component of 1 acting along the incline. ...
... For a normal balance, the two masses would need to be the same in order for the system to be in equilibrium. However, only a component of the weight of 1 is acting to pull it down the incline, so the mass of 2 only need be equal and opposite to the component of 1 acting along the incline. ...
Stacey Carpenter
... Later, the proportionality was made into an equation a = F/m, or F = ma and force was defined as more than a push or pull. The units for force are kgm/s2, which are called Newtons, in honor of Isaac Newton. For example, a net force of 1 N acting on a 1 kg object causes it to accelerate at 1 m/s2. ...
... Later, the proportionality was made into an equation a = F/m, or F = ma and force was defined as more than a push or pull. The units for force are kgm/s2, which are called Newtons, in honor of Isaac Newton. For example, a net force of 1 N acting on a 1 kg object causes it to accelerate at 1 m/s2. ...
Unit I: Concept Enhancer
... velocity faster) or you could say you had a greater acceleration. You knew this by the way your feet had to move faster and faster so that you could keep the force constant. So force is directly related to acceleration. You also found that if you pulled on a more massive person that the acceleration ...
... velocity faster) or you could say you had a greater acceleration. You knew this by the way your feet had to move faster and faster so that you could keep the force constant. So force is directly related to acceleration. You also found that if you pulled on a more massive person that the acceleration ...
Circular Motion Lab
... the time it takes to swing the stopper in 10 complete circles at a constant radius (this will be divided by 10 to obtain the period T of the swing) the length (in meters) of the string for each particular swing. You will measure the length from the center of the stopper to the top of the tube. 2 ...
... the time it takes to swing the stopper in 10 complete circles at a constant radius (this will be divided by 10 to obtain the period T of the swing) the length (in meters) of the string for each particular swing. You will measure the length from the center of the stopper to the top of the tube. 2 ...
