WORK POWER AND ENERGY
1.
When will we say that work is
said to be done?
2.
Define 1 joule of work.
3.
Derive an expression for the
kinetic energy for the particle in motion.
4.
Define law of conservation of
energy. Derive it mathematically.
5.
Name the factors on which work
done depends.
6.
Define power and write down its
commercial unit.
7.
Define Kwh and convert it into
joules.
8.
Define potential energy and
write its mathematical expression.
9.
Drive relation between kinetic
energy and linear momentum.
10.
A particle in motion do not
have any work done.
WORK POWER AND ENERGY
1.
When will we say that work is
said to be done?
2.
Define 1 joule of work.
3.
Derive an expression for the
kinetic energy for the particle in motion.
4.
Define law of conservation of
energy. Derive it mathematically.
5.
Name the factors on which work
done depends.
6.
Define power and write down its
commercial unit.
7.
Define Kwh and convert it into
joules.
8.
Define potential energy and
write its mathematical expression.
9.
Drive relation between kinetic
energy and linear momentum.
10.
A particle in motion do not
have any work done.
WORK POWER AND ENERGY
1.
When will we say that work is
said to be done?
2.
Define 1 joule of work.
3.
Derive an expression for the
kinetic energy for the particle in motion.
4.
Define law of conservation of
energy. Derive it mathematically.
5.
Name the factors on which work
done depends.
6.
Define power and write down its
commercial unit.
7.
Define Kwh and convert it into
joules.
8.
Define potential energy and
write its mathematical expression.
9.
Drive relation between kinetic
energy and linear momentum.
10.
A particle in motion do not
have any work done.
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