英语翻译A A bungee jumper is attached to one end of a long elastic rope.The other end of the elastic rope is fixed to a high bridge.The jumper steps off the bridge and falls,from rest,towards the river below.He does not hit the water.The mass of

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英语翻译A A bungee jumper is attached to one end of a long elastic rope.The other end of the elastic rope is fixed to a high bridge.The jumper steps off the bridge and falls,from rest,towards the river below.He does not hit the water.The mass of
英语翻译
A A bungee jumper is attached to one end of a long elastic rope.The other end of the elastic rope is fixed to a high bridge.The jumper steps off the bridge and falls,from rest,towards the river below.He does not hit the water.The mass of the jumper is m,the unstretched length of the rope is L,the rope has a force constant (force to produce 1 m extension) of k and the gravitational field strength is g.
You may assume that
the jumper can be regarded as a point mass m attached to the end of the rope,
the mass of the rope is negligible compared to m,
the rope obeys Hooke’s law,
air resistance can be ignored throughout the fall of the jumper.
Obtain expressions for the following and insert on the answer sheet:
(a) the distance y dropped by the jumper before coming instantaneously to rest for the first time,
(b) the maximum speed  attained by the jumper during this drop,
(c) the time t taken during the drop before coming to rest for the first time.
这只是部分题目!

英语翻译A A bungee jumper is attached to one end of a long elastic rope.The other end of the elastic rope is fixed to a high bridge.The jumper steps off the bridge and falls,from rest,towards the river below.He does not hit the water.The mass of
The jumper comes to rest when
lost gravitational potential energy = stored strain energy
mgy = k (y-L)2
0.1
ky2 – 2y(kL + mg) = 0
0.1
This is solved as a quadratic.

=
0.2
Need positive root; lower position of rest (other root after initial rise).
0.1
0.5
The maximum speed is attained when the acceleration is zero and forces balance; i.e. when mg = kx 0.1
Also kinetic energy = lost potential energy – strain energy within elastic rope
0.1
0.1
0.2
0.5
Time to come to rest = time in free fall + time in SHM of rope to stop stretching
0.1
Length of free fall =
Therefore
0.2
The jumper enters the SHM with free fall velocity = gtf ==
0.1
Period of SHM = = T
0.1
We represent a full SHM cycle by
The jumper enters the SHM at time  given by
 = =
0.2
Jumper comes to rest at one half cycle of the SHM at total time given by
= tf + (T/2 - 

=-
= -
={ - }
This is the same as
={ }
= tan-1{-}
0.2
1.0
B Heat Engine Question
In calculating work obtainable,
we assume no loss (friction etc.) in engine working.
Q1 = energy from body A
= -msT1 (T1 –ve)
Q2 = msT2 (T2 +ve)
(a) For maximum amount of mechanical energy assume Carnot engine
= throughout operation (second law)
0.2
ButQ1 = -msT1 and Q2 = msT2
0.2
=
0.1
ln= ln
0.1
0.2
0.8 Q1 = -ms= ms(TA – T0)
0.2
Q2 = ms= ms(T0 – TB)
0.1
W = Q1 – Q2
0.2
W = ms(TA-T0 –T0 + TB) = ms(TA+TB – 2T0) = ms (TA+TB - 2)
or ms
0.2
0.7

(d) Numerical example:
Mass = volume density
W = 2.50 1.00 103 4.19 103 (350 + 300 - 2) J
= 20 106 J
= 20 MJ
0.5
0.5
C Radioactivity and age of the Earth
N = N0e- N0 = original number
0.1
n = N0(1 – e-t)
0.1
Therefore n = N et(1 – e-t) = N(et – 1)
0.1
So n = N(2t/ – 1) where  is half-life
or as  = , n = N()
0.1
or where time t is in 109 years
0.1
0.5
(b) or
0.1
0.1
(c) In mixed uranium (i.e. containing Pb of both natural and radioactive origin)
204 : 206 : 207 have proportions 1.00 : 29.6 : 22.6
In pure lead (no radioactivity) 1.00 : 17.9 : 15.5
Therefore for radioactively produced lead by subtraction
206 : 207 11.7 : 7.1
0.2
Dividing equations from (a) and (b) gives
or
0.1
or
0.1
0.0120 {2T/0.710 – 1} = {2T/4.50 - 1}
or 0.0120 {e0.9762T – 1}= {e0.1540T –1}
0.1
0.5
(d) Assume T >> 4.50 109 and ignore 1 in both brackets:
0.2
0.0120 {2T/0.710 } = {2T/4.50} or 0.0120 {e0.9762T}= {e0.1540T}
0.0120 = {2T/4.50 - T/0.710 }= 2T(0.222-1.4084) = 2-1.1862T
T = = 5.38
T = 5.38 109 years

or 0.0120 = e-0.8222T T =
T = 5.38 109 years
0.2
0.4
T is not >> 4.50 109 years but is > 0.71 109 years
0.1
We can insert the approximate value for T (call it T* = 5.38 109 years) in the 2T/4.50 term and obtain a better value by iteration in the rapidly changing 2T/0.710 term). We now leave in the –1’s, although the –1 on the right-hand side has little effect and may be omitted).
0.1
Either 0.0120(
T = 0.710
0.2
Put T* = 4.80(0) 109 years
T = 0.710
Further iteration gives 4.52
0.1
or
0.0120(e0.9762T –1) = (e0.1540T* - 1) and similar
So more accurate answer for T to be in range 4.6 109 years to 4.5 109 years (either acceptable).

0.5D Spherical charge

(a) Charge density = within sphere
0.3
x R Field at distance x:
E ==
0.3
x R Field at distance x from the centre:
0.2
0.8
(b) Method 1
Energy density is .
0.1
x R
Energy in a thin shell of thickness x at radius x is given by
= = x 0.1
Energy within the spherical volume = =
0.2
x > R
Energy within spherical shell = = x
0.1
Energy within the spherical volume for x R
= =
0.2
Total energy associated with the charge distribution = +
= =
0.1
0.8

Method 2
A shell with charge 4x2x moves from to the surface of a sphere radius x
0.1
where the electric potential is
0.2
and will therefore gain electrical potential energy ()(4r2x
0.1
Total energy of complete sphere =
0.2
Putting Q = charge on sphere = ,
So that total energy is = =
0.2
0.8
(c) Binding energy Ebinding = Eelectric - Enuclear
0.1
Binding energy is a negative energy
Therefore -8.768 = Eelectric - 10.980 MeV per nucleon
Eelectric = 2.212 MeV per nucleon
0.1
Radius of cobalt nucleus is given by R =
= m
= 5.0 10-15 m
0.2
0.4
E E.M. Induction
Method 1 Equating energy
Horizontal component of magnetic field B inducing emf in ring:
B = 44.5 10-6 cos 64o 0.2
Magnetic flux through ring at angle  = Ba2sin 
where a = radius of ring 0.1
Instantaneous emf = = Ba2 where  = angular velocity
= Ba2cos t= Ba2cos  
R.m.s. emf over 1 revolution =  0.2
Average resistive heating of ring = 0.1
Moment of inertia = 0.1
Rotational energy = where m = mass of ring 0.1
Power producing change in  = {} =
0.1
Equating: = -
0.1
= -dt
0.1
If T is time for angular velocity to halve,
0.1
ln 2 = T 0.2
But R = where A is cross-sectional area of copper ring 0.1
m = 2ad A (d = density) 0.1
ln 2 = = 0.1

T = =
= 1.10(2) 106 s (=306 hr = 12 days 18 hr) 0.2
2.0(Part E)
Method 2 Back Torque
Horizontal component of magnetic field = B = 44.5 10-6 cos 64o 0.2
Cross-section of area of ring is A
Radius of ring = a
Density of ring = d
Resistivity = 
= angular velocity positive when clockwise)
Resistance R = 0.1
Mass of ring m = 2aAd 0.1
Moment of inertia = M = 0.1
Magnetic flux through ring at angle  = Ba2sin  0.1
Instantaneous emf = = Ba2 = Ba2cos t = Bacos  
Induced current = I = Ba2cos /R
Torque opposing motion = (Ba2cos  0.1
Work done in small = 0.1
Average torque = (work done in 2 revolution)/2
= 
This equals so that = 0.2
0.2
0.2
0.2
ln 2 = 0.2

T = =
= 1.10(2) 106 s =306 hr = 12 days 18 hr
0.2
2.0

Theoretical Problem 2

(a) A cathode ray tube (CRT), consisting of an electron gun and a screen, is placed within a uniform constant magnetic field of magnitude B such that the magnetic field is parallel to the beam axis of the gun, as shown in figure 2.3.

The electron beam emerges from the anode of the electron gun on the axis, but with a divergence of up to 5 from the axis, as illustrated in figure 2.4. In general a diffuse spot is produced on the screen, but for certain values of the magnetic field a sharply focused spot is obtained.

By considering the motion of an electron initially moving at an angle  (where   5) to the axis as it leaves the electron gun, and considering the components of its motion parallel and perpendicular to the axis, derive an expression for the charge to mass ratio e/m for the electron in terms of the following quantities:

the smallest magnetic field for which a focused spot is obtained,
the accelerating potential difference across the electron gun V
(note that V < 2 kV),
and D, the distance between the anode and the screen.

Write your expression in the box provided in section 2a of the answer sheet.

(b) Consider another method of evaluating the charge to mass ratio of the electron. The arrangement is shown from a side view and in plan view (from above) in figure 2.5, with the direction of the magnetic field marked B. Within this uniform magnetic field B are placed two brass circular plates of radius  which are separated by a very small distance t. A potential difference V is maintained between them. The plates are mutually parallel and co-axial, however their axis is perpendicular to the magnetic field. A photographic film, covers the inside of the curved surface of a cylinder of radius  + s, which is held co-axial with the plates. In other words, the film is at a radial distance s from the edges of the plates. The entire arrangement is placed in vacuo. Note that t is very much smaller than both s and .

A point source of  particles, which emits the  particles uniformly in all directions with a range of velocities, is placed between the centres of the plates, and the same piece of film is exposed under three different conditions:

firstly with B = 0, and V = 0,
secondly with B= B0, and V = V0, and
thirdly with B = -B0, and V = -V0;

where V0 and B0 are positive constants. Please note that the upper plate is positively charged when V>0 (negative when V0 (in the opposite direction when B

后面那句话，害怕！——————————这只是部分题目！

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（a）第一问问的是第一次达到静止时人所处的位置，本题不考虑空气阻力，只有重力和弹力在做功，可运用机械能守恒定理，从开始跳到第一次到达静止时，这个过程用机械能守恒或动能定理：mgy-(1/2)k(y-L)^2=0 可解出y
（b）下落过程中达到最大的速度时，人所受的弹性绳的拉力F=人的重力G
此时弹性绳子伸长量为x 则kx=mg x=mg/k 再次利用动能定理从开始跳到达到最大速度时，mg（L+mg/k）-(1/2)k(mg/k)^2=(1/2)mv^2 解出v=根号（gL+mg^2/k）
(c)开始跳到原长时为自由落体t1=根号（2L/g）从原长到静止这个区间内是变加速，是相互对称的所以可看成加速度为a=g-（1/2）k(y-L)/m,平均速度v=根号（2gL）从而可求出t2=V/a,总的时间为t=t1+t2

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这题很简单。题目的大概意思就是质量为m的人蹦极，绳子的长度是L，还有哪绳子的弹力系数（具体是什么忘了...）是k，重力加速度是g，人可以当做一个点，忽略绳子的重量，空气阻力不计。求这个人停止的时候总共运动的距离、在运动中的最大速度，还有总共运动的时间。这个题目一般物理不是很差的人都可以很快的做出来。...

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bungee bungee jumping of a goodexampie think such anactivity is i连词成句2000000 people around the world tried bungee jumping。翻译中文。 bungee jumping,of,a good example,think,such an activity,is,I连词成句翻译：I would consider bungee jumping to be a good example of such an activity.急! Whats the most popular exreme sport?A skatebording b windsurfing c bungee jumping Mr johnson's never tried bungee jumping before .A isn't he B has he 英语翻译Bungee jumping is a very new x-sport,but it has become popular all over the world.The number of the fans of this extremely exciting sport is increasing each year.Bungee jumping looks like fun,it makes me nervous just to watch someone do i 英语翻译A A bungee jumper is attached to one end of a long elastic rope.The other end of the elastic rope is fixed to a high bridge.The jumper steps off the bridge and falls,from rest,towards the river below.He does not hit the water.The mass of 英语翻译1.The color “yellow” was slightly off but not a big deal2.The loop ends should be black 3.There needs to be a warning label 4.There is no elasticity/stretching on the sample,upon inspection there is no bungee type of material only fib A student who just got 10/10 on a Physics midterm decides to try bungee jumping as a reward.He attaches an elastic bungee cord to his ankles and happily jumps off a tall bridge across a river.He ends up barely touching the water before the cord jerks Bungee jumping 英语翻译（2）While traveling around with a busy sightseeing schedule,tourist may suffer from different kinds of illness.They may get too tired or have hear-stroke if the weather is too hot.They may get hurt in certain activities such as bungee 这中文是什麼?What events are you in?I'm in the long jump and the high jump.I'm in the long jump,too.You're a good jumper,Pat.I'm not.Thanks,Candy.You're a good jumpe,too.You're a btter jumper this year than last year. 这个英语句子中为什么where不能用that?Bungee jumping is a sport where a person makes a vertical jump from a high platform with a rubber cord tied to their ankles so that they bounce. 问两道英文物理题.1、An 819 N bungee jumper falls from a bridge that is 674 x 10-1 m high. The force constant of the bungee cord is 1.50 x 101 N/m, and its unstretched length is 7 m. How far above the ground is the jumper, when he reaches a s 根据首字母及句意补全单词we f( ) a lot of geese.Insects are smaller than birds and they f( )on plants.Poeple like r( ) a lot,because they usually stand for love.Which kind of animal do you like better,frogs or f( He jumpe jose,whose mass is 90 KG,has just completed his first bungee jump and is now bauncing up and down at the end of the cord.His osollations have an initial amplitude of 13M and a period of 4.0s.hint：Although not entirely realistic,treat the bungee cor 英语翻译翻译成汉语:2 000 000 people around the world tried bungee jumping.