Yes, during his time galileo galilei state that if two objects were to fall at the same time at the same distance then they would both land at the same time. Many people didn't believe him, but when man first stepped on the moon the astronauts dropped a feather and a hammer and both touched the moon's surface at the same time. Since there is no air in space then there wouldn't be air resistance to keep the objects from reaching their destination at the same time.
Yes, they will land at the same time. In the absence of air resistance, the only factor affecting their fall would be gravity, which accelerates all objects at the same rate regardless of their mass. Therefore, both the apple and the Bowling ball would hit the ground simultaneously.
both would travel at the same distance the bowling ball would hit the ground harder cuz it weighs more.
The resistance force when a nail is being pulled out by a hammer is primarily due to friction between the nail and the surface it's embedded in. As you pull the nail, the friction between the surfaces provides the resistance force that you have to overcome to remove the nail.
The load in a bottle opener is the resistance provided by the bottle cap when you try to open it. It is the force required to overcome the seal and remove the cap from the bottle.
If the compressor doesn't start remove all the relays and circuitry installed on it and measure the resistance of the windings A video detailing the process can be found in related links.
Increase the force on the objectDecrease the resistance to motion (lubricate, remove resisting stuff like the air...)
Oscillating phenomena do not last forever due to the presence of damping forces or energy loss mechanisms. These forces, such as friction or air resistance, gradually remove energy from the system, causing the oscillations to dampen and eventually come to a stop. Energy is continuously being dissipated, leading to the dampening of the oscillations over time.
wipe it off
Many pro shops have a special oven that is safe for the bowling ball, but will draw out oil that has been absorbed.
Some do but most do not. Though alcohol is a great cleaner itself, It cannot remove all the things that a bowling ball picks up.
No, you will have to ask the activation crew as well as the new "Robert Bowling"
a meter uses its own supply to measure resistance. you dont have to remove the resistor from the circuit but you must isolate it from the circuit supply to get an accurate reading.
if we remove a resistor from the parallel connection the effective resistance value will be increased.
it is used to remove all the earth resistance from the bridge network.
One is to remove or at least reduce the stressor, and the other is to increase their resistance to it.
First,remove all current and voltage sources ie replace voltage source with a short and keep current source open.Now draw the equivalent resistance-only circuit and find the equivalent resistance as viewed from the terminals of the circuit.
Short answer: yes. Most modern multimeters will not be damaged by external power when measuring resistance. But they will give erroneous readings. It is best to remove the power and disconnect the measured resistance from the larger circuit. A multimeter determines resistance by applying a small voltage, and measuring the resulting current. If the resistor has an external voltage source, then it will interfere with the measurement. Furthermore, if the resistance is connected to a larger circuit, then the resistance of this larger circuit will also be involved.
Increase the force on the objectDecrease the resistance to motion (lubricate, remove resisting stuff like the air...)
No, a "distance" should always be positive or zero. If a subtraction gives you a negative number, just take its absolute value - that is, remove the minus sign.