How much kinetic energy does a 100 gram pendulum have when it is at the bottom...

Revisiting the ballistic pendulum. In lab we used both conservation of momentum and conservation of energy...

Revisiting the ballistic pendulum. In lab we used both conservation of momentum and conservation of energy to relate the launch speed of a projectile to the maximum height of the swing of a pendulum. Here we will study the parts of this problem in a bit more detail. (a) Briefly explain why momentum is conserved during the collision of the projectile and the pendulum, but mechanical energy is not conserved. (b) Briefly explain why mechanical energy (kinetic plus potential energy)...

How much kinetic energy does the daughter have when 147Sm undergoes α decay from rest?(in MeV)

How much kinetic energy does the daughter have when 147Sm undergoes α decay from rest?(in MeV)

Assume that the ball can get to y =10 m. How much kinetic energy does the...

Assume that the ball can get to y =10 m. How much kinetic energy does the ball lose in going from y = -10 m to y = 10 m? Is this independent of v0x initial? i. KE -10= , KE+10= ΔKE= What is the work done by gravity when the ball goes from y= -10 m to y = 10 m? To calculate the work done by gravity first show using symbols only, then determine a numerical value (ie...

Show that when u<< c the relativistic kinetic energy does indeed return into its classical form.

Show that when u<< c the relativistic kinetic energy does indeed return into its classical form.

Step 1: Before the collision, the total momentum is pbefore = mv0 + 0 where m...

Step 1: Before the collision, the total momentum is pbefore = mv0 + 0 where m is the ball’s mass and v0 is the ball’s speed. The pendulum is not moving so its contribution to the total momentum is zero. After the collision, the total momentum is pafter = (m + M) V, where m is the ball’s mass, M is the pendulum mass, and V is the velocity of the pendulum with the ball stuck inside (see the picture...

(a) How much energy does it take to heat 250 g of water from 20 ◦C...

(a) How much energy does it take to heat 250 g of water from 20 ◦C to the boiling point of 100 ◦C? (The specific heat of water is 4190 J/kg · K) (b) (Suppose you wanted to cause the temperature change in part (a) by using an 800W microwave. If we assume all the power delivered by the microwave goes into the water, how long will it take for the water to change temperature? (c) The heat of vaporization...

Can I get the answer please. or any answer you can if possible 1.Calculate how much...

Can I get the answer please. or any answer you can if possible 1.Calculate how much energyin calories is obtained from a 20g of a roasted peanut snack pack. 2. If you ate the 20g of peanuts from the problem above, how many minutes of Applied Physics lecture will you be able to sit through? the lucture is50 minutse 3. Using equation 4.2 write down how many kilocalories is requires to climb 116 stairs minute. the eqeation from the queiom...

How much does an enzyme need to reduce the activation energy of a reaction at 25...

How much does an enzyme need to reduce the activation energy of a reaction at 25 ºC in order to increase the rate 100-fold over the uncatalyzed reaction? R = 8.3145 J/K mol. When answering, convert your response to kJ/mol and input ONLY a number, rounded to one decimal place. Hint: the rate constant for an enzymatic reaction divided by the uncatalyzed reaction = 10

A force ?(?) = −5.0?2+7.0? Newtons acts on a particle. a) How much work does the...

A force ?(?) = −5.0?2+7.0? Newtons acts on a particle. a) How much work does the force do on the particle as it moves from ? = 2.0m to ? = 5.0m, in Joules? b) Find the potential energy due to this force, at position x = 2, in Joules, by finding the potential energy as a function of x, U(x). You should use the reference point of the potential energy being 0 when x = 0. c) Using either...

Learning Goal: To understand how to apply the law of conservation of energy to situations with...

Learning Goal: To understand how to apply the law of conservation of energy to situations with and without nonconservative forces acting. The law of conservation of energy states the following: In an isolated system the total energy remains constant. If the objects within the system interact through gravitational and elastic forces only, then the total mechanical energy is conserved. The mechanical energy of a system is defined as the sum of kinetic energy K and potential energy U. For such...