Physics 9702 Doubts | Help Page 182
Question 892:
[Gravitation]
(a) Define gravitational potential.
(b) Explain why values of gravitational potential near to an isolated
mass are all negative.
(c) Earth may be assumed to be an isolated sphere of radius 6.4 × 103
km with its mass of 6.0 × 1024 kg concentrated at its centre. An
object is projected vertically from the surface of the Earth so that it reaches
an altitude of 1.3 × 104 km.
Calculate, for this object,
(i) change in gravitational
potential,
(ii) speed of projection from the
Earth’s surface, assuming air resistance is negligible.
(d) Suggest why the equation
v2 = u2 + 2as
is not appropriate for calculation
in (c)(ii).
Reference: Past Exam Paper – June 2003 Paper 4 Q1
Solution 892:
(a) Gravitational potential (at a point) is defined as the work done
in bringing/moving unit mass from infinity to the point.
(b) The potential at infinity is defined as being zero. The forces are
always attractive, so work got out in moving to point (work
is done on the mass when moving it to infinity).
(c)
(i)
Gravitational potential, φ = - GM / R
= - GM × (1/R)
{The distances should be
converted in metre. Initial position is at the surface of the Earth, which is a
distance of 6.4×106m from the centre of the Earth. The final
distance is 1.3×107m (altitude = distance above surface) + 6.4×106m (distance of surface of the centre) = 1.94×107m}
Change in potential = (6.67×10-11)
(6.0×1024)
×
({6.4×106}-1
– {1.94×107}-1)
Change in potential = 4.19 × 107
J kg-1 (ignore sign)
(ii)
The kinetic energy is
converted to gravitational potential energy as the height of the object from
the surface of the Earth increases.
½ mv2 = mΔφ
v2 = 2 ×
4.19×107
= 8.38 × 107
Speed v = 9150 m s-1
(d) The acceleration is not constant.
Question 893: [Kinematics
> Graph]
Graph shows how the velocity v of a
firework rocket changes with time t.
At which point on the graph does the
rocket have the greatest acceleration?
Reference: Past Exam Paper – November 2013 Paper 13 Q7
Solution 893:
Answer: B.
The gradient of
a velocity-time graph gives the acceleration.
Thus, the
acceleration is greatest where the value of the gradient is greatest. Visually,
this is be identified by the steepness of the tangent at a point – the steeper
the tangent, the greater is the gradient.
The tangent is
steepest at point B, compared with the other points.
Question 894: [Dynamics]
When a golfer hits a ball his club
is in contract with the ball for about 0.0005 s and the ball leaves the club
with a speed of 70 m/s. The mass of the ball is 46 g. Determine the mean force
on the ball?
Reference: ???
Solution 894:
From Newton’s 2nd law,
Force F is equal / proportional to rate of change of momentum. (F = Δp / t)
Change in momentum is given by p =
mΔv
(Assuming all other velocities are
zero – during the contact, the ball is momentarily stationary)
So, Force = mΔv / t = (0.046 × 70) /
0.0005 = 6440N
Question 895:
[Alternating Current > Rectification]
Alternating supply of frequency 50
Hz and having an output of 6.0 V r.m.s. is to be rectified so as to provide
direct current for a resistor R. The circuit of Fig.1 is used.
The diode is ideal. The Y-plates of
a cathode-ray oscilloscope (c.r.o.) are connected between points A and B.
(a)
(i) Calculate maximum potential
difference across the diode during one cycle.
(ii) State potential difference
across R when the diode has maximum potential difference across it. Give a
reason for your answer.
(b) Y-plate sensitivity of the c.r.o. is set at 2.0 V cm–1 and
the time-base at 5.0 ms cm–1.
On Fig.2, draw the waveform that is
seen on the screen of the c.r.o.
(c) A capacitor of capacitance 180 μF is connected into the circuit to
provide smoothing of the potential difference across the resistor R.
(i) On Fig.1, show the position of the
capacitor in the circuit.
(ii) Calculate energy stored in the
fully-charged capacitor.
(iii) During discharge, potential
difference across the capacitor falls to 0.43V0, where V0
is the maximum potential difference across the capacitor.
Calculate fraction of the total
energy that remains in the capacitor after the discharge.
Reference: Past Exam Paper – November 2006 Paper 4 Q6
Solution 895:
(a)
(i) Peak voltage = 6√2 = 8.48 V
(ii) The potential difference is zero
because EITHER there is no current in circuit (and V = IR) OR all p.d. is across
the diode
(b)
The waveform is that of a half-wave
rectification.
{Peak voltage = 8.48V. 1cm
represents 2.0V. 8.48V is represented by 8.48 / 2.0 = 4.24cm}
The peak height is at about 4.25 cm
{Frequency f is 50Hz.
Period T = 1/f = 1/50 = 0.02s = 20ms. Half-period = 10ms. 1cm represents 5.0ms.
20ms is represented by 20 / 5 = 4cm. Half-period is represented by 2cm.}
The half-period spacing is 2.0 cm
(c)
(i) The capacitor should be shown in
parallel with the resistor.
(ii)
EITHER Energy = ½ CV2 OR = ½ QV and Q = CV
Energy = ½ ×
(180×10–6)
×
(6√2)2 = 6.48 × 10–3 J
(iii)
{EITHER Energy is
proportional to V2. Fraction = remaining energy / total energy.
Remaining energy is proportional
to (0.43V0)2. Total energy is proportional to V02.
So, fraction = (0.43V0)2
/ V02 = 0.432
OR The actual value of the
remaining energy could be calculated and the fraction could be found using the
previously calculated value of the total energy in (c)(ii). But this is too
time-consuming.}
EITHER fraction = 0.432 OR final energy = 1.2 mJ
Fraction
= 0.18
This comment has been removed by the author.
ReplyDeleteFor 6/O/N/03 Q.6(b), see solution 896 at
Deletehttp://physics-ref.blogspot.com/2015/08/physics-9702-doubts-help-page-183.html
For 06/M/J/06 Q.2(b)(i), see solution 899 at
http://physics-ref.blogspot.com/2015/08/physics-9702-doubts-help-page-183.html
(ii) The potential difference is zero because EITHER there is no current in circuit (and V = IR) OR all p.d. is across the diode
ReplyDeleteWhy is there no current in the circuit? How can all pd be across diode? The resistance of the diode isn't infinite thoughl
Ideally, the resistance of the diode is infinite and the flow of current is opposite.
DeleteOhm’s law: V = IR. For the p.d. to be maximum across the diode, its resistance R should be very big (ideally, infinite). In this case, the p.d. across the resistance is zero because the sum of p.d. in the circuit is equal to the e.m.f. and all of this is across the diode.
Additionally, having an infinite resistance means that the total resistance in the circuit is infinite.
Current I = V / R
So, the current is zero (ideally).
hi, can i know {EITHER Energy is proportional to V2. Fraction = remaining energy / total energy.
ReplyDeleteRemaining energy is proportional to (0.43V0)2. Total energy is proportional to V02.
So, fraction = (0.43V0)2 / V02 = 0.432
OR The actual value of the remaining energy could be calculated and the fraction could be found using the previously calculated value of the total energy in (c)(ii). But this is too time-consuming.}
EITHER fraction = 0.432 OR final energy = 1.2 mJ
Fraction = 0.18
about this part, why is it energy remain shouldnt be (1-0.43V0)
The question says:
Delete"falls TO 0.43 V0"
and not "falls BY 0.43 V0"
For solution 895, C) part 2), why the V used is the maximum potential difference but not the Vrms ?
ReplyDeleteit is said that the capacitor is fully charged.
DeleteQuestion 895,
ReplyDeleteWhy is Energy t proportional to V² and not V?
energy = 1/2 CV^2
Deleteso it depends on V sqaure, not V only