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In Fig. 8.206, the pulley shown is smooth. The spring and the string are light. Block B slides down from the top along the fixed rough wedge of inclination theta. Assuming that the block reaches the end of the wedge
03
Oct
In Fig. 8.206, the pulley shown is smooth. The spring and the string are light. Block B slides down from the top along the fixed rough wedge of inclination theta. Assuming that the block reaches the end of the wedge In Fig. 8.206 the pulley shown is smooth. The spring and the string are light. [...]
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Tags: In Fig. 8.206 , the pulley shown is smooth. The spring and the string are light. Block B slides down from the top along the fixed rough wedge of inclination theta. Assuming that the block reaches the end of the wedge ,
Use Euclid’s division algorithm to find the HCF of : 196, 38220
03
Oct
Use Euclid’s division algorithm to find the HCF of : 196, 38220 38220 Use Euclid's division algorithm to find the HCF of : 196 October 3, 2020 Category: Chapter 1 - Real Numbers , Exercise 1.1 , Maths , NCERT Class 10 ,
Posted in: Chapter 1 - Real Numbers , Exercise 1.1 , Maths , NCERT Class 10 ,
Tags: 38220 , Use Euclid's division algorithm to find the HCF of : 196 ,
A particle of mass m is moving in a circular path of constant radius r, such that it centripetal force Fr varies with time t as Fr = K^2rt^2, where k is a constant. What is the power delivered to the
03
Oct
A particle of mass m is moving in a circular path of constant radius r, such that it centripetal force Fr varies with time t as Fr = K^2rt^2, where k is a constant. What is the power delivered to the A particle of mass m is moving in a circular path of constant radius [...]
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Tags: A particle of mass m is moving in a circular path of constant radius r , such that it centripetal force Fr varies with time t as Fr = K^2rt^2 , where k is a constant. What is the power delivered to the ,
Water falling from a 50 m high fall is to be used for generating electricity energy. If 1.8 * 10^5 kg of water falls per hour and half the gravitational potential energy can be converted into electric
03
Oct
Water falling from a 50 m high fall is to be used for generating electricity energy. If 1.8 * 10^5 kg of water falls per hour and half the gravitational potential energy can be converted into electric Water falling from a 50 m high fall is to be used for generating electricity energy. If 1.8 [...]
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Tags: Water falling from a 50 m high fall is to be used for generating electricity energy. If 1.8 * 10^5 kg of water falls per hour and half the gravitational potential energy can be converted into electric ,
The electric motor of a model train accelerates the train from rest to 0.620 m/s in 21.0 m/s. The total mass of the train is 875 g. Find the average power delivered to the train during the acceleration.
03
Oct
The electric motor of a model train accelerates the train from rest to 0.620 m/s in 21.0 m/s. The total mass of the train is 875 g. Find the average power delivered to the train during the acceleration. A 90 kg man runs up an escalator while it is not in operation in 10 s. [...]
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Tags: A 90 kg man runs up an escalator while it is not in operation in 10 s. What is the average power developed by the man. Suppose the escalator is running so that the escalator steps move at ,
A 700 N marine in basic training climbs a 10.0 m vertical rope at a constant speed in 8.00 s. What is his power output?
03
Oct
A 700 N marine in basic training climbs a 10.0 m vertical rope at a constant speed in 8.00 s. What is his power output? A 700 N marine in basic training climbs a 10.0 m vertical rope at a constant speed in 8.00 s. What is his power output? October 3, 2020 Category: Uncategorised [...]
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Tags: A 700 N marine in basic training climbs a 10.0 m vertical rope at a constant speed in 8.00 s. What is his power output? ,
A helicopter lifts a body of mass 100 kg to a height of 500 m at a constant speed. It takes 5 min to lift the body. Find the work done by the helicopter and the power required.
03
Oct
A helicopter lifts a body of mass 100 kg to a height of 500 m at a constant speed. It takes 5 min to lift the body. Find the work done by the helicopter and the power required. A helicopter lifts a body of mass 100 kg to a height of 500 m at a [...]
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Tags: A helicopter lifts a body of mass 100 kg to a height of 500 m at a constant speed. It takes 5 min to lift the body. Find the work done by the helicopter and the power required. ,
A 90 kg man runs up an escalator while it is not in operation in 10 s. What is the average power developed by the man. Suppose the escalator is running so that the escalator steps move at
03
Oct
A 90 kg man runs up an escalator while it is not in operation in 10 s. What is the average power developed by the man. Suppose the escalator is running so that the escalator steps move at A 90 kg man runs up an escalator while it is not in operation in 10 s. [...]
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Tags: A 90 kg man runs up an escalator while it is not in operation in 10 s. What is the average power developed by the man. Suppose the escalator is running so that the escalator steps move at ,
Two persons of equal weight are running at speeds of 4 m/s and 5 m/s, respectively. Both increases their speeds by 1 m/s in a time span of 10 s. Who does more work? Who develops more power ?
03
Oct
Two persons of equal weight are running at speeds of 4 m/s and 5 m/s, respectively. Both increases their speeds by 1 m/s in a time span of 10 s. Who does more work? Who develops more power ? respectively. Both increases their speeds by 1 m/s in a time span of 10 s. Who [...]
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Tags: respectively. Both increases their speeds by 1 m/s in a time span of 10 s. Who does more work? Who develops more power ? , Two persons of equal weight are running at speeds of 4 m/s and 5 m/s ,
An elevator of total mass (elevator + passenger ) 1800 kg is moving up with a constant speed of 2 m/s. A frictional force of 4000 N opposes its motion. Determine the minimum power delivered
03
Oct
An elevator of total mass (elevator + passenger ) 1800 kg is moving up with a constant speed of 2 m/s. A frictional force of 4000 N opposes its motion. Determine the minimum power delivered An elevator of total mass (elevator + passenger ) 1800 kg is moving up with a constant speed of 2 [...]
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Tags: An elevator of total mass (elevator + passenger ) 1800 kg is moving up with a constant speed of 2 m/s. A frictional force of 4000 N opposes its motion. Determine the minimum power delivered ,