Roberto Hessel scite author profile

Roberto Hessel

4Publications

60Citation Statements Received

30Citation Statements Given

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Affiliations

Universidade Estadual Paulista (Unesp), Departamento de Ciência e Tecnologia, Fundação de Apoio à Universidade Federal de São Paulo

Publications

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Experimental study of the conventional equation to determine a plate's moment of inertia

Pintão¹,

Filho²,

Grandini³

et al. 2004

Eur. J. Phys.

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In this work, we describe an experimental setup in which an electric current is used to determine the angular velocity attained by a plate rotating around a shaft in response to a torque applied for a given period. Based on this information, we show how the moment of inertia of a plate can be determined using a procedure that differs considerably from the ones most commonly used, which generally involve time measurements. Some experimental results are also presented which allow one to determine parameters such as the exponents and constant of the conventional equation of a plate's moment of inertia.

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Force-versus-time curves during collisions between two identical steel balls

Hessel

Perinotto

Alfaro

et al. 2006

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We describe a numerical procedure for plotting the force-versus-time curves in elastic collisions between identical conducting balls. A system of parametric equations relating the force and the time to a dimensionless parameter is derived from the assumption of a force compatible with Hertz's theory of collision. A simple experimental arrangement consisting of a mechanical system of colliding balls and an electrical circuit containing a crystal oscillator and an electronic counter is used to measure the collision time as a function of the energy of impact. From the data we can determine the relevant parameters. The calculated results agree very well with the expected values and are consistent with the assumption that the collisions are elastic.

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Total secondary-electron yield of metals measured by a dynamic method

Pintão

Hessel

2000

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The secondary electron emission of dielectrics usually is measured by the pulse method, in which the dielectric is irradiated with short pulses of electrons. Attempts to use a dynamic method, in which the dielectric is irradiated continuously, have failed because the dielectric becomes charged and this charge interferes with the emission process. The dynamic method can, however, be applied to metals where volume charges are prevented. This article reports dynamic measurements of the total secondary emission yield from stainless steel, platinum, and aluminum and compares them with results from the current pulse method. In order to apply the dynamic method to metals a simple but important change in the setup was introduced: a dielectric slab was placed between the electrode and the metallic sample, which permitted the sample surface potential and therefore the energy of the incident electrons to change continuously. Unlike for dielectrics, the emission curves for metals are identical when obtained by the two methods. However, for a sample with deliberately oxidized surfaces the total secondary emission yield is smaller when measured with the dynamic method as compared with the pulse method, just as happens for dielectrics.

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Escape depth of secondary electrons from electron-irradiated polymers

Hessel

Groß²

1992

IEEE Trans. Elect. Insul.

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Roberto Hessel

Experimental study of the conventional equation to determine a plate's moment of inertia

Force-versus-time curves during collisions between two identical steel balls

Total secondary-electron yield of metals measured by a dynamic method

Escape depth of secondary electrons from electron-irradiated polymers

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