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CSET Science: Constants And Equations

Subjects : cset, science

Instructions:

Answer 29 questions in 15 minutes.
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Match each statement with the correct term.
Don't refresh. All questions and answers are randomly picked and ordered every time you load a test.

This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.

1. Wave characteristics
9.8 m/s^2
P=IV = I^2R = V^2/R; P = power in watts (joule/sec)
Sin(theta1)/sin(theta2)=v1/v2=n1/n2
V=f*wavelength

2. G (gravitational force)
A = v^2/r =Fc/m
PE=kq1q2/r
V=IR; v = voltage; I = current in amperes (coulombs/sec); R = resistance in Ohms
6.67x10^-11 N m^2/kg^2

3. Work done by spring displacement

4. Impedence
E=kq1/r^2
V=IR; v = voltage; I = current in amperes (coulombs/sec); R = resistance in Ohms
The impedence is given by Z=v( R^2+(?L-1/?C)^2). When ?=?r= 1/vLC - ?L=?C
Sin(theta1)/sin(theta2)=v1/v2=n1/n2

5. Electric Field
P=1/f
E=kq1/r^2
Fq=kq1q2/r^2
A = v^2/r =Fc/m

6. k (Coulomb's Law)
Q=CV; Q = charge in coulombs; C = capacitance in farads; V = voltage
P=mv
F=qvBsin(a); q = charge (in coulombs); v = velocity of the charge; B = magnetic field; a = angle between the direction of the motion of the charged particle and the direction of the magnetic field
9x10^9 N m^2/coul^2

7. Unit of magnetism
PE=kq1q2/r
The impedence is given by Z=v( R^2+(?L-1/?C)^2). When ?=?r= 1/vLC - ?L=?C
F=qE; q is the charge - E is the electric field
Tesla

8. Speed of light
C=3.08x10^8 m/s
V=IR; v = voltage; I = current in amperes (coulombs/sec); R = resistance in Ohms
E=1/2CV^2; C = capacitance; V = voltage
9.8 m/s^2

9. Impulse
P=mv
P=IV = I^2R = V^2/R; P = power in watts (joule/sec)
F(delta)t=change in motion resulting in the application of a force for a given amount of time
PE=kq1q2/r

10. Centripetal Force
Sin(theta1)/sin(theta2)=v1/v2=n1/n2
Fc = mv^2/r
A = v^2/r =Fc/m
P=1/f

11. Potential energy of two charges
PE=kq1q2/r
F=qvBsin(a); q = charge (in coulombs); v = velocity of the charge; B = magnetic field; a = angle between the direction of the motion of the charged particle and the direction of the magnetic field
F(delta)t=change in motion resulting in the application of a force for a given amount of time
P=IV = I^2R = V^2/R; P = power in watts (joule/sec)

12. Force on a moving charge in a magnetic field
Fg=Gm1m2/r^2
F=qvBsin(a); q = charge (in coulombs); v = velocity of the charge; B = magnetic field; a = angle between the direction of the motion of the charged particle and the direction of the magnetic field
Tesla
P=IV = I^2R = V^2/R; P = power in watts (joule/sec)

13. Circular Acceleration
W=Fd; W=mgh
P=IV = I^2R = V^2/R; P = power in watts (joule/sec)
P=1/f
A = v^2/r =Fc/m

14. Doppler Effect
P=1/f
E=1/2CV^2; C = capacitance; V = voltage
F=(v+vr)/(v+vs)f0; v = velocity of wave in the medium ; vr = velocity of the receiver relative to the medium -- positive if moving toward the source; vs = velocity of the source relative to the medium -- positive if moving away from the receiver
9x10^9 N m^2/coul^2

15. Work
Q=CV; Q = charge in coulombs; C = capacitance in farads; V = voltage
W=Fd; W=mgh
F(delta)t=change in motion resulting in the application of a force for a given amount of time
P=1/f

16. Momentum
P=mv
Vf = v0 + at - d = d0+ v0t + 1/2at^2 - vf^2=v0^2+2ad - d=(vf+v0)t/2
Q=CV; Q = charge in coulombs; C = capacitance in farads; V = voltage
F(delta)t=change in motion resulting in the application of a force for a given amount of time

17. g
9.8 m/s^2
A = v^2/r =Fc/m
E=kq1/r^2
Q=CV; Q = charge in coulombs; C = capacitance in farads; V = voltage

18. Coulomb's Law
F=kx; k=spring constant - x = displacement
Fq=kq1q2/r^2
P=1/f
Vf = v0 + at - d = d0+ v0t + 1/2at^2 - vf^2=v0^2+2ad - d=(vf+v0)t/2

19. Hooke's Law
Fc = mv^2/r
6.67x10^-11 N m^2/kg^2
F=kx; k=spring constant - x = displacement
9x10^9 N m^2/coul^2

20. Snell's Law
F(delta)t=change in motion resulting in the application of a force for a given amount of time
Sin(theta1)/sin(theta2)=v1/v2=n1/n2
9x10^9 N m^2/coul^2
F=qvBsin(a); q = charge (in coulombs); v = velocity of the charge; B = magnetic field; a = angle between the direction of the motion of the charged particle and the direction of the magnetic field

21. Power of a lens
P=IV = I^2R = V^2/R; P = power in watts (joule/sec)
F=qE; q is the charge - E is the electric field
P=1/f
Q=CV; Q = charge in coulombs; C = capacitance in farads; V = voltage

22. Capacitance
Q=CV; Q = charge in coulombs; C = capacitance in farads; V = voltage
F=kx; k=spring constant - x = displacement
F(delta)t=change in motion resulting in the application of a force for a given amount of time
A = v^2/r =Fc/m

23. Kinetic Energy
Vf = v0 + at - d = d0+ v0t + 1/2at^2 - vf^2=v0^2+2ad - d=(vf+v0)t/2
E=1/2mv^2
Tesla
Fq=kq1q2/r^2

24. Force on a charged particle in an electric field
P=IV = I^2R = V^2/R; P = power in watts (joule/sec)
F=qE; q is the charge - E is the electric field
9x10^9 N m^2/coul^2
Graph Hooke's law; area under graph= work = 1/2kx^2

25. Energy stored in a capacitor
Fc = mv^2/r
W=Fd; W=mgh
E=1/2CV^2; C = capacitance; V = voltage
F=kx; k=spring constant - x = displacement

26. Power
C=3.08x10^8 m/s
E=kq1/r^2
9.8 m/s^2
P=IV = I^2R = V^2/R; P = power in watts (joule/sec)

27. Gravitational Force
Fg=Gm1m2/r^2
E=kq1/r^2
F=kx; k=spring constant - x = displacement
9.8 m/s^2

28. Kinematics Equations
F=qvBsin(a); q = charge (in coulombs); v = velocity of the charge; B = magnetic field; a = angle between the direction of the motion of the charged particle and the direction of the magnetic field
Tesla
Fq=kq1q2/r^2
Vf = v0 + at - d = d0+ v0t + 1/2at^2 - vf^2=v0^2+2ad - d=(vf+v0)t/2

29. Ohm's Law
V=IR; v = voltage; I = current in amperes (coulombs/sec); R = resistance in Ohms
C=3.08x10^8 m/s
E=kq1/r^2
P=IV = I^2R = V^2/R; P = power in watts (joule/sec)